#include #include #include #include #include #include #include #include #include #include #include #include "stg/common.h" #include "stg/ia_packets.h" #include "stg/locker.h" #include "proto.h" class HasIP : public std::unary_function, bool> { public: explicit HasIP(uint32_t i) : ip(i) {} bool operator()(const std::pair & value) { return value.first == ip; } private: uint32_t ip; }; PROTO::PROTO(const std::string & server, uint16_t port, uint16_t localPort, int to) : timeout(to), running(false), stopped(true) { uint32_t ip = inet_addr(server.c_str()); if (ip == INADDR_NONE) { struct hostent * hePtr = gethostbyname(server.c_str()); if (hePtr) { ip = *((uint32_t *)hePtr->h_addr_list[0]); } else { errorStr = "Unknown host: '"; errorStr += server; errorStr += "'"; printfd(__FILE__, "PROTO::PROTO() - %s\n", errorStr.c_str()); throw std::runtime_error(errorStr); } } localAddr.sin_family = AF_INET; localAddr.sin_port = htons(localPort); localAddr.sin_addr.s_addr = inet_addr("0.0.0.0"); serverAddr.sin_family = AF_INET; serverAddr.sin_port = htons(port); serverAddr.sin_addr.s_addr = ip; unsigned char key[IA_PASSWD_LEN]; memset(key, 0, IA_PASSWD_LEN); strncpy(reinterpret_cast(key), "pr7Hhen", 8); Blowfish_Init(&ctx, key, IA_PASSWD_LEN); processors["CONN_SYN_ACK"] = &PROTO::CONN_SYN_ACK_Proc; processors["ALIVE_SYN"] = &PROTO::ALIVE_SYN_Proc; processors["DISCONN_SYN_ACK"] = &PROTO::DISCONN_SYN_ACK_Proc; processors["FIN"] = &PROTO::FIN_Proc; processors["INFO"] = &PROTO::INFO_Proc; // ERR_Proc will be handled explicitly pthread_mutex_init(&mutex, NULL); } PROTO::~PROTO() { pthread_mutex_destroy(&mutex); } void * PROTO::Runner(void * data) { sigset_t signalSet; sigfillset(&signalSet); pthread_sigmask(SIG_BLOCK, &signalSet, NULL); PROTO * protoPtr = static_cast(data); protoPtr->Run(); return NULL; } bool PROTO::Start() { stopped = false; running = true; if (pthread_create(&tid, NULL, &Runner, this)) { errorStr = "Failed to create listening thread: '"; errorStr += strerror(errno); errorStr += "'"; printfd(__FILE__, "PROTO::Start() - %s\n", errorStr.c_str()); return false; } return true; } bool PROTO::Stop() { running = false; int time = 0; while (!stopped && time < timeout) { struct timespec ts = {1, 0}; nanosleep(&ts, NULL); ++time; } if (!stopped) { errorStr = "Failed to stop listening thread - timed out"; printfd(__FILE__, "PROTO::Stop() - %s\n", errorStr.c_str()); return false; } if (pthread_join(tid, NULL)) { errorStr = "Failed to join listening thread after stop: '"; errorStr += strerror(errno); errorStr += "'"; printfd(__FILE__, "PROTO::Stop() - %s\n", errorStr.c_str()); return false; } return true; } void PROTO::AddUser(const USER & user, bool connect) { STG_LOCKER lock(&mutex, __FILE__, __LINE__); users.push_back(std::make_pair(user.GetIP(), user)); users.back().second.InitNetwork(); struct pollfd pfd; pfd.fd = users.back().second.GetSocket(); pfd.events = POLLIN; pfd.revents = 0; pollFds.push_back(pfd); if (connect) { RealConnect(&users.back().second); } } bool PROTO::Connect(uint32_t ip) { std::list >::iterator it; STG_LOCKER lock(&mutex, __FILE__, __LINE__); it = std::find_if(users.begin(), users.end(), HasIP(ip)); if (it == users.end()) return false; // Do something return RealConnect(&it->second); } bool PROTO::Disconnect(uint32_t ip) { std::list >::iterator it; STG_LOCKER lock(&mutex, __FILE__, __LINE__); it = std::find_if(users.begin(), users.end(), HasIP(ip)); if (it == users.end()) return false; // Do something return RealDisconnect(&it->second); } void PROTO::Run() { while (running) { int res; { STG_LOCKER lock(&mutex, __FILE__, __LINE__); res = poll(&pollFds.front(), pollFds.size(), timeout); } if (res < 0) break; if (!running) break; if (res) { printfd(__FILE__, "PROTO::Run() - events: %d\n", res); RecvPacket(); } else { CheckTimeouts(); } } stopped = true; } void PROTO::CheckTimeouts() { STG_LOCKER lock(&mutex, __FILE__, __LINE__); std::list >::iterator it; for (it = users.begin(); it != users.end(); ++it) { int delta = difftime(time(NULL), it->second.GetPhaseChangeTime()); if ((it->second.GetPhase() == 3) && (delta > it->second.GetUserTimeout())) { printfd(__FILE__, "PROTO::CheckTimeouts() - user alive timeout (ip: %s, login: '%s', delta: %d > %d)\n", inet_ntostring(it->second.GetIP()).c_str(), it->second.GetLogin().c_str(), delta, it->second.GetUserTimeout()); it->second.SetPhase(1); } if ((it->second.GetPhase() == 2) && (delta > it->second.GetAliveTimeout())) { printfd(__FILE__, "PROTO::CheckTimeouts() - user connect timeout (ip: %s, login: '%s', delta: %d > %d)\n", inet_ntostring(it->second.GetIP()).c_str(), it->second.GetLogin().c_str(), delta, it->second.GetAliveTimeout()); it->second.SetPhase(1); } } } bool PROTO::RecvPacket() { bool result = true; std::vector::iterator it; std::list >::iterator userIt; STG_LOCKER lock(&mutex, __FILE__, __LINE__); for (it = pollFds.begin(), userIt = users.begin(); it != pollFds.end() && userIt != users.end(); ++it, ++userIt) { if (it->revents) { it->revents = 0; assert(it->fd == userIt->second.GetSocket() && "File descriptors from poll fds and users must be syncked"); struct sockaddr_in addr; socklen_t fromLen = sizeof(addr); char buffer[2048]; int res = recvfrom(userIt->second.GetSocket(), buffer, sizeof(buffer), 0, (struct sockaddr *)&addr, &fromLen); if (res == -1) { result = false; continue; } result = result && HandlePacket(buffer, res, &(userIt->second)); } } return result; } bool PROTO::HandlePacket(const char * buffer, size_t length, USER * user) { if (!strncmp(buffer + 4 + sizeof(HDR_8), "ERR", 3)) { return ERR_Proc(buffer, user); } for (size_t i = 0; i < length / 8; i++) Blowfish_Decrypt(user->GetCtx(), (uint32_t *)(buffer + i * 8), (uint32_t *)(buffer + i * 8 + 4)); std::string packetName(buffer + 12); std::map::const_iterator it; it = processors.find(packetName); if (it != processors.end()) return (this->*it->second)(buffer, user); printfd(__FILE__, "PROTO::HandlePacket() - invalid packet signature: '%s'\n", packetName.c_str()); return false; } bool PROTO::CONN_SYN_ACK_Proc(const void * buffer, USER * user) { const CONN_SYN_ACK_8 * packet = static_cast(buffer); uint32_t rnd = packet->rnd; uint32_t userTimeout = packet->userTimeOut; uint32_t aliveTimeout = packet->aliveDelay; #ifdef ARCH_BE SwapBytes(rnd); SwapBytes(userTimeout); SwapBytes(aliveDelay); #endif if (user->GetPhase() != 2) { errorStr = "Unexpected CONN_SYN_ACK"; printfd(__FILE__, "PROTO::CONN_SYN_ACK_Proc() - wrong phase: %d\n", user->GetPhase()); return false; } user->SetPhase(3); user->SetAliveTimeout(aliveTimeout); user->SetUserTimeout(userTimeout); user->SetRnd(rnd); Send_CONN_ACK(user); printfd(__FILE__, "PROTO::CONN_SYN_ACK_Proc() - user '%s' successfully logged in from IP %s\n", user->GetLogin().c_str(), inet_ntostring(user->GetIP()).c_str()); return true; } bool PROTO::ALIVE_SYN_Proc(const void * buffer, USER * user) { const ALIVE_SYN_8 * packet = static_cast(buffer); uint32_t rnd = packet->rnd; #ifdef ARCH_BE SwapBytes(rnd); #endif if (user->GetPhase() != 3) { errorStr = "Unexpected ALIVE_SYN"; printfd(__FILE__, "PROTO::ALIVE_SYN_Proc() - wrong phase: %d\n", user->GetPhase()); return false; } user->SetPhase(3); user->SetRnd(rnd); // Set new rnd value for ALIVE_ACK Send_ALIVE_ACK(user); return true; } bool PROTO::DISCONN_SYN_ACK_Proc(const void * buffer, USER * user) { const DISCONN_SYN_ACK_8 * packet = static_cast(buffer); uint32_t rnd = packet->rnd; #ifdef ARCH_BE SwapBytes(rnd); #endif if (user->GetPhase() != 4) { errorStr = "Unexpected DISCONN_SYN_ACK"; printfd(__FILE__, "PROTO::DISCONN_SYN_ACK_Proc() - wrong phase: %d\n", user->GetPhase()); return false; } if (user->GetRnd() + 1 != rnd) { errorStr = "Wrong control value at DISCONN_SYN_ACK"; printfd(__FILE__, "PROTO::DISCONN_SYN_ACK_Proc() - wrong control value: %d, expected: %d\n", rnd, user->GetRnd() + 1); } user->SetPhase(5); user->SetRnd(rnd); Send_DISCONN_ACK(user); return true; } bool PROTO::FIN_Proc(const void * buffer, USER * user) { if (user->GetPhase() != 5) { errorStr = "Unexpected FIN"; printfd(__FILE__, "PROTO::FIN_Proc() - wrong phase: %d\n", user->GetPhase()); return false; } user->SetPhase(1); return true; } bool PROTO::INFO_Proc(const void * buffer, USER * user) { //const INFO_8 * packet = static_cast(buffer); return true; } bool PROTO::ERR_Proc(const void * buffer, USER * user) { const ERR_8 * packet = static_cast(buffer); const char * ptr = static_cast(buffer); //uint32_t len = packet->len; #ifdef ARCH_BE //SwapBytes(len); #endif user->SetPhase(1); //TODO: Check /*KOIToWin((const char*)err.text, &messageText); if (pErrorCb != NULL) pErrorCb(messageText, IA_SERVER_ERROR, errorCbData); phaseTime = GetTickCount(); codeError = IA_SERVER_ERROR;*/ return true; } bool PROTO::Send_CONN_SYN(USER * user) { CONN_SYN_8 packet; packet.len = sizeof(packet); #ifdef ARCH_BE SwapBytes(packet.len); #endif strncpy((char *)packet.loginS, user->GetLogin().c_str(), sizeof(packet.loginS)); strncpy((char *)packet.type, "CONN_SYN", sizeof(packet.type)); strncpy((char *)packet.login, user->GetLogin().c_str(), sizeof(packet.login)); packet.dirs = 0xFFffFFff; return SendPacket(&packet, sizeof(packet), user); } bool PROTO::Send_CONN_ACK(USER * user) { CONN_ACK_8 packet; packet.len = sizeof(packet); packet.rnd = user->IncRnd(); #ifdef ARCH_BE SwapBytes(packet.len); SwapBytes(packet.rnd); #endif strncpy((char *)packet.loginS, user->GetLogin().c_str(), sizeof(packet.loginS)); strncpy((char *)packet.type, "CONN_ACK", sizeof(packet.type)); return SendPacket(&packet, sizeof(packet), user); } bool PROTO::Send_ALIVE_ACK(USER * user) { ALIVE_ACK_8 packet; packet.len = sizeof(packet); packet.rnd = user->IncRnd(); #ifdef ARCH_BE SwapBytes(packet.len); SwapBytes(packet.rnd); #endif strncpy((char *)packet.loginS, user->GetLogin().c_str(), sizeof(packet.loginS)); strncpy((char *)packet.type, "ALIVE_ACK", sizeof(packet.type)); return SendPacket(&packet, sizeof(packet), user); } bool PROTO::Send_DISCONN_SYN(USER * user) { DISCONN_SYN_8 packet; packet.len = sizeof(packet); #ifdef ARCH_BE SwapBytes(packet.len); #endif strncpy((char *)packet.loginS, user->GetLogin().c_str(), sizeof(packet.loginS)); strncpy((char *)packet.type, "DISCONN_SYN", sizeof(packet.type)); strncpy((char *)packet.login, user->GetLogin().c_str(), sizeof(packet.login)); return SendPacket(&packet, sizeof(packet), user); } bool PROTO::Send_DISCONN_ACK(USER * user) { DISCONN_ACK_8 packet; packet.len = sizeof(packet); packet.rnd = user->IncRnd(); #ifdef ARCH_BE SwapBytes(packet.len); SwapBytes(packet.rnd); #endif strncpy((char *)packet.loginS, user->GetLogin().c_str(), sizeof(packet.loginS)); strncpy((char *)packet.type, "DISCONN_ACK", sizeof(packet.type)); return SendPacket(&packet, sizeof(packet), user); } bool PROTO::SendPacket(const void * packet, size_t length, USER * user) { HDR_8 hdr; assert(length < 2048 && "Packet length must not exceed 2048 bytes"); strncpy((char *)hdr.magic, IA_ID, sizeof(hdr.magic)); hdr.protoVer[0] = 0; hdr.protoVer[1] = 8; // IA_PROTO_VER unsigned char buffer[2048]; memset(buffer, 0, sizeof(buffer)); memcpy(buffer, packet, length); memcpy(buffer, &hdr, sizeof(hdr)); size_t offset = sizeof(HDR_8); for (size_t i = 0; i < IA_LOGIN_LEN / 8; i++) { Blowfish_Encrypt(&ctx, (uint32_t *)(buffer + offset + i * 8), (uint32_t *)(buffer + offset + i * 8 + 4)); } offset += IA_LOGIN_LEN; size_t encLen = (length - IA_LOGIN_LEN) / 8; for (size_t i = 0; i < encLen; i++) { Blowfish_Encrypt(user->GetCtx(), (uint32_t*)(buffer + offset + i * 8), (uint32_t*)(buffer + offset + i * 8 + 4)); } int res = sendto(user->GetSocket(), buffer, length, 0, (struct sockaddr *)&serverAddr, sizeof(serverAddr)); if (res < 0) { errorStr = "Failed to send packet: '"; errorStr += strerror(errno); errorStr += "'"; printfd(__FILE__, "PROTO::SendPacket() - %s, fd: %d\n", errorStr.c_str(), user->GetSocket()); return false; } if (res < length) { errorStr = "Packet sent partially"; printfd(__FILE__, "PROTO::SendPacket() - %s\n", errorStr.c_str()); return false; } return true; } bool PROTO::RealConnect(USER * user) { if (user->GetPhase() != 1 && user->GetPhase() != 5) { errorStr = "Unexpected connect"; printfd(__FILE__, "PROTO::RealConnect() - wrong phase: %d\n", user->GetPhase()); } user->SetPhase(2); return Send_CONN_SYN(user); } bool PROTO::RealDisconnect(USER * user) { if (user->GetPhase() != 3) { errorStr = "Unexpected disconnect"; printfd(__FILE__, "PROTO::RealDisconnect() - wrong phase: %d\n", user->GetPhase()); } user->SetPhase(4); return Send_DISCONN_SYN(user); }