/* * 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 * (at your option) 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, write to the Free Software * Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA */ /* * Author : Boris Mikhailenko * Author : Maxim Mamontov */ #include #include // readv #include // for historical versions of BSD #include #include #include #include #include #include #include #include #include #include "listener.h" #include "script_executer.h" #include "stg_locker.h" #include "common.h" void InitEncrypt(BLOWFISH_CTX * ctx, const std::string & password); void Decrypt(BLOWFISH_CTX * ctx, char * dst, const char * src, int len8); //----------------------------------------------------------------------------- LISTENER::LISTENER() : WriteServLog(GetStgLogger()), port(0), running(false), receiverStopped(true), processorStopped(true), userTimeout(0), listenSocket(0) { version = "rscriptd listener v.1.2"; pthread_mutex_init(&mutex, NULL); } //----------------------------------------------------------------------------- void LISTENER::SetPassword(const std::string & p) { password = p; printfd(__FILE__, "Encryption initiated with password \'%s\'\n", password.c_str()); InitEncrypt(&ctxS, password); } //----------------------------------------------------------------------------- bool LISTENER::Start() { printfd(__FILE__, "LISTENER::Start()\n"); running = true; if (PrepareNet()) { return true; } if (receiverStopped) { if (pthread_create(&receiverThread, NULL, Run, this)) { errorStr = "Cannot create thread."; return true; } } if (processorStopped) { if (pthread_create(&processorThread, NULL, RunProcessor, this)) { errorStr = "Cannot create thread."; return true; } } errorStr = ""; return false; } //----------------------------------------------------------------------------- bool LISTENER::Stop() { running = false; printfd(__FILE__, "LISTENER::Stop()\n"); usleep(500000); if (!processorStopped) { //5 seconds to thread stops itself for (int i = 0; i < 25 && !processorStopped; i++) { usleep(200000); } //after 5 seconds waiting thread still running. now killing it if (!processorStopped) { //TODO pthread_cancel() if (pthread_kill(processorThread, SIGINT)) { errorStr = "Cannot kill thread."; return true; } printfd(__FILE__, "LISTENER killed Timeouter\n"); } } if (!receiverStopped) { //5 seconds to thread stops itself for (int i = 0; i < 25 && !receiverStopped; i++) { usleep(200000); } //after 5 seconds waiting thread still running. now killing it if (!receiverStopped) { //TODO pthread_cancel() if (pthread_kill(receiverThread, SIGINT)) { errorStr = "Cannot kill thread."; return true; } printfd(__FILE__, "LISTENER killed Run\n"); } } pthread_join(receiverThread, NULL); pthread_join(processorThread, NULL); pthread_mutex_destroy(&mutex); FinalizeNet(); std::for_each(users.begin(), users.end(), DisconnectUser(*this)); printfd(__FILE__, "LISTENER::Stoped successfully.\n"); return false; } //----------------------------------------------------------------------------- void * LISTENER::Run(void * d) { LISTENER * ia = static_cast(d); ia->Runner(); return NULL; } //----------------------------------------------------------------------------- void LISTENER::Runner() { receiverStopped = false; while (running) { RecvPacket(); } receiverStopped = true; } //----------------------------------------------------------------------------- void * LISTENER::RunProcessor(void * d) { LISTENER * ia = static_cast(d); ia->ProcessorRunner(); return NULL; } //----------------------------------------------------------------------------- void LISTENER::ProcessorRunner() { processorStopped = false; while (running) { usleep(500000); if (!pending.empty()) ProcessPending(); ProcessTimeouts(); } processorStopped = true; } //----------------------------------------------------------------------------- bool LISTENER::PrepareNet() { listenSocket = socket(AF_INET, SOCK_DGRAM, 0); if (listenSocket < 0) { errorStr = "Cannot create socket."; return true; } printfd(__FILE__, "Port: %d\n", port); struct sockaddr_in listenAddr; listenAddr.sin_family = AF_INET; listenAddr.sin_port = htons(port); listenAddr.sin_addr.s_addr = inet_addr("0.0.0.0"); if (bind(listenSocket, (struct sockaddr*)&listenAddr, sizeof(listenAddr)) < 0) { errorStr = "LISTENER: Bind failed."; return true; } printfd(__FILE__, "LISTENER::PrepareNet() >>>> Start successfull.\n"); return false; } //----------------------------------------------------------------------------- bool LISTENER::FinalizeNet() { close(listenSocket); return false; } //----------------------------------------------------------------------------- bool LISTENER::RecvPacket() { struct iovec iov[2]; char buffer[RS_MAX_PACKET_LEN]; RS_PACKET_HEADER packetHead; iov[0].iov_base = reinterpret_cast(&packetHead); iov[0].iov_len = sizeof(packetHead); iov[1].iov_base = buffer; iov[1].iov_len = sizeof(buffer); size_t dataLen = 0; while (dataLen < sizeof(buffer)) { if (!WaitPackets(listenSocket)) { if (!running) return false; continue; } int portion = readv(listenSocket, iov, 2); if (portion < 0) { return true; } dataLen += portion; } if (CheckHeader(packetHead)) { printfd(__FILE__, "Invalid packet or incorrect protocol version!\n"); return true; } std::string userLogin((char *)packetHead.login); PendingData data; data.login = userLogin; data.ip = ntohl(packetHead.ip); data.id = ntohl(packetHead.id); if (packetHead.packetType == RS_ALIVE_PACKET) { data.type = PendingData::ALIVE; } else if (packetHead.packetType == RS_CONNECT_PACKET) { data.type = PendingData::CONNECT; if (GetParams(buffer, data)) { return true; } } else if (packetHead.packetType == RS_DISCONNECT_PACKET) { data.type = PendingData::DISCONNECT; if (GetParams(buffer, data)) { return true; } } STG_LOCKER lock(&mutex, __FILE__, __LINE__); pending.push_back(data); return false; } //----------------------------------------------------------------------------- bool LISTENER::GetParams(char * buffer, UserData & data) { RS_PACKET_TAIL packetTail; Decrypt(&ctxS, (char *)&packetTail, buffer, sizeof(packetTail) / 8); if (strncmp((char *)packetTail.magic, RS_ID, RS_MAGIC_LEN)) { printfd(__FILE__, "Invalid crypto magic\n"); return true; } std::stringstream params; params << data.login << " " << inet_ntostring(data.ip) << " " << ntohl(data.id) << " " << (char *)packetTail.params; data.params = params.str(); return false; } //----------------------------------------------------------------------------- void LISTENER::ProcessPending() { printfd(__FILE__, "Pending data size: %d\n", pending.size()); std::list::iterator it(pending.begin()); while (it != pending.end()) { std::vector::iterator uit( std::lower_bound( users.begin(), users.end(), it->login) ); if (it->type == PendingData::CONNECT) { if (uit == users.end() || uit->login != it->login) { // Add new user Connect(*it); users.insert(uit, AliveData(static_cast(*it))); } else if (uit->login == it->login) { // Update already existing user time(&uit->lastAlive); uit->params = it->params; } } else if (it->type == PendingData::ALIVE) { if (uit != users.end() && uit->login == it->login) { // Update existing user time(&uit->lastAlive); } } else if (it->type == PendingData::DISCONNECT) { if (uit != users.end() && uit->login == it->login.c_str()) { // Disconnect existing user Disconnect(*uit); users.erase(uit); } } STG_LOCKER lock(&mutex, __FILE__, __LINE__); pending.erase(it++); } } //----------------------------------------------------------------------------- void LISTENER::ProcessTimeouts() { const std::vector::iterator it( std::stable_partition( users.begin(), users.end(), IsNotTimedOut(userTimeout) ) ); if (it != users.end()) { printfd(__FILE__, "Total users: %d, users to disconnect: %d\n", users.size(), std::distance(it, users.end())); std::for_each( it, users.end(), DisconnectUser(*this) ); users.erase(it, users.end()); } } //----------------------------------------------------------------------------- bool LISTENER::Connect(const UserData & data) const { printfd(__FILE__, "Connect %s\n", data.login.c_str()); if (access(scriptOnConnect.c_str(), X_OK) == 0) { if (ScriptExec(scriptOnConnect + " " + data.params)) { WriteServLog("Script %s cannot be executed for an unknown reason.", scriptOnConnect.c_str()); return true; } } else { WriteServLog("Script %s cannot be executed. File not found.", scriptOnConnect.c_str()); return true; } return false; } //----------------------------------------------------------------------------- bool LISTENER::Disconnect(const UserData & data) const { printfd(__FILE__, "Disconnect %s\n", data.login.c_str()); if (access(scriptOnDisconnect.c_str(), X_OK) == 0) { if (ScriptExec(scriptOnDisconnect + " " + data.params)) { WriteServLog("Script %s cannot be executed for an unknown reson.", scriptOnDisconnect.c_str()); return true; } } else { WriteServLog("Script %s cannot be executed. File not found.", scriptOnDisconnect.c_str()); return true; } return false; } //----------------------------------------------------------------------------- bool LISTENER::CheckHeader(const RS_PACKET_HEADER & header) const { if (strncmp((char *)header.magic, RS_ID, RS_MAGIC_LEN)) { return true; } if (strncmp((char *)header.protoVer, "02", RS_PROTO_VER_LEN)) { return true; } return false; } //----------------------------------------------------------------------------- bool LISTENER::WaitPackets(int sd) const { fd_set rfds; FD_ZERO(&rfds); FD_SET(sd, &rfds); struct timeval tv; tv.tv_sec = 0; tv.tv_usec = 500000; int res = select(sd + 1, &rfds, NULL, NULL, &tv); if (res == -1) // Error { if (errno != EINTR) { printfd(__FILE__, "Error on select: '%s'\n", strerror(errno)); } return false; } if (res == 0) // Timeout { return false; } return true; } //----------------------------------------------------------------------------- inline void InitEncrypt(BLOWFISH_CTX * ctx, const std::string & password) { unsigned char keyL[PASSWD_LEN]; memset(keyL, 0, PASSWD_LEN); strncpy((char *)keyL, password.c_str(), PASSWD_LEN); Blowfish_Init(ctx, keyL, PASSWD_LEN); } //----------------------------------------------------------------------------- inline void Decrypt(BLOWFISH_CTX * ctx, char * dst, const char * src, int len8) { if (dst != src) memcpy(dst, src, len8 * 8); for (int i = 0; i < len8; i++) Blowfish_Decrypt(ctx, (uint32_t *)(dst + i * 8), (uint32_t *)(dst + i * 8 + 4)); } //-----------------------------------------------------------------------------