#include #include #include #include #include #include #include #include #include #include #include #include #include #include "stg/common.h" #include "stg/plugin_creator.h" #include "smux.h" #include "utils.h" PLUGIN_CREATOR smc; PLUGIN * GetPlugin() { return smc.GetPlugin(); } bool SPrefixLess(const Sensors::value_type & a, const Sensors::value_type & b) { return a.first.PrefixLess(b.first); } SMUX_SETTINGS::SMUX_SETTINGS() : errorStr(), ip(0), port(0), password() {} int SMUX_SETTINGS::ParseSettings(const MODULE_SETTINGS & s) { PARAM_VALUE pv; std::vector::const_iterator pvi; int p; pv.param = "Port"; pvi = std::find(s.moduleParams.begin(), s.moduleParams.end(), pv); if (pvi == s.moduleParams.end()) { errorStr = "Parameter \'Port\' not found."; printfd(__FILE__, "Parameter 'Port' not found\n"); return -1; } if (ParseIntInRange(pvi->value[0], 2, 65535, &p)) { errorStr = "Cannot parse parameter \'Port\': " + errorStr; printfd(__FILE__, "Cannot parse parameter 'Port'\n"); return -1; } port = p; pv.param = "Password"; pvi = std::find(s.moduleParams.begin(), s.moduleParams.end(), pv); if (pvi == s.moduleParams.end()) { errorStr = "Parameter \'Password\' not found."; printfd(__FILE__, "Parameter 'Password' not found\n"); password = ""; } else { password = pvi->value[0]; } pv.param = "Server"; pvi = std::find(s.moduleParams.begin(), s.moduleParams.end(), pv); if (pvi == s.moduleParams.end()) { errorStr = "Parameter \'Server\' not found."; printfd(__FILE__, "Parameter 'Server' not found\n"); return -1; } ip = inet_strington(pvi->value[0]); return 0; } SMUX::SMUX() : PLUGIN(), users(NULL), tariffs(NULL), admins(NULL), services(NULL), corporations(NULL), traffcounter(NULL), errorStr(), smuxSettings(), settings(), thread(), mutex(), running(false), stopped(true), sock(-1), smuxHandlers(), pdusHandlers(), sensors(), tables(), notifiers(), addUserNotifier(*this), delUserNotifier(*this), addDelTariffNotifier(*this) { pthread_mutex_init(&mutex, NULL); smuxHandlers[SMUX_PDUs_PR_close] = &SMUX::CloseHandler; smuxHandlers[SMUX_PDUs_PR_registerResponse] = &SMUX::RegisterResponseHandler; smuxHandlers[SMUX_PDUs_PR_pdus] = &SMUX::PDUsRequestHandler; smuxHandlers[SMUX_PDUs_PR_commitOrRollback] = &SMUX::CommitOrRollbackHandler; pdusHandlers[PDUs_PR_get_request] = &SMUX::GetRequestHandler; pdusHandlers[PDUs_PR_get_next_request] = &SMUX::GetNextRequestHandler; pdusHandlers[PDUs_PR_set_request] = &SMUX::SetRequestHandler; } SMUX::~SMUX() { { Sensors::iterator it; for (it = sensors.begin(); it != sensors.end(); ++it) delete it->second; } { Tables::iterator it; for (it = tables.begin(); it != tables.end(); ++it) delete it->second; } printfd(__FILE__, "SMUX::~SMUX()\n"); pthread_mutex_destroy(&mutex); } int SMUX::ParseSettings() { return smuxSettings.ParseSettings(settings); } int SMUX::Start() { assert(users != NULL && "users must not be NULL"); assert(tariffs != NULL && "tariffs must not be NULL"); assert(admins != NULL && "admins must not be NULL"); assert(services != NULL && "services must not be NULL"); assert(corporations != NULL && "corporations must not be NULL"); assert(traffcounter != NULL && "traffcounter must not be NULL"); if (PrepareNet()) return -1; // Users sensors[OID(".1.3.6.1.4.1.38313.1.1.1")] = new TotalUsersSensor(*users); sensors[OID(".1.3.6.1.4.1.38313.1.1.2")] = new ConnectedUsersSensor(*users); sensors[OID(".1.3.6.1.4.1.38313.1.1.3")] = new AuthorizedUsersSensor(*users); sensors[OID(".1.3.6.1.4.1.38313.1.1.4")] = new AlwaysOnlineUsersSensor(*users); sensors[OID(".1.3.6.1.4.1.38313.1.1.5")] = new NoCashUsersSensor(*users); sensors[OID(".1.3.6.1.4.1.38313.1.1.6")] = new DisabledDetailStatsUsersSensor(*users); sensors[OID(".1.3.6.1.4.1.38313.1.1.7")] = new DisabledUsersSensor(*users); sensors[OID(".1.3.6.1.4.1.38313.1.1.8")] = new PassiveUsersSensor(*users); sensors[OID(".1.3.6.1.4.1.38313.1.1.9")] = new CreditUsersSensor(*users); sensors[OID(".1.3.6.1.4.1.38313.1.1.10")] = new FreeMbUsersSensor(*users); sensors[OID(".1.3.6.1.4.1.38313.1.1.11")] = new TariffChangeUsersSensor(*users); // Tariffs sensors[OID(".1.3.6.1.4.1.38313.1.2.1")] = new TotalTariffsSensor(*tariffs); // Admins sensors[OID(".1.3.6.1.4.1.38313.1.3.1")] = new TotalAdminsSensor(*admins); // Services sensors[OID(".1.3.6.1.4.1.38313.1.4.1")] = new TotalServicesSensor(*services); // Corporations sensors[OID(".1.3.6.1.4.1.38313.1.5.1")] = new TotalCorporationsSensor(*corporations); // Traffcounter sensors[OID(".1.3.6.1.4.1.38313.1.6.1")] = new TotalRulesSensor(*traffcounter); // Table data tables[".1.3.6.1.4.1.38313.1.2.2"] = new TariffUsersTable(".1.3.6.1.4.1.38313.1.2.2", *tariffs, *users); UpdateTables(); SetNotifiers(); #ifdef SMUX_DEBUG Sensors::const_iterator it(sensors.begin()); while (it != sensors.end()) { printfd(__FILE__, "%s = %s\n", it->first.ToString().c_str(), it->second->ToString().c_str()); ++it; } #endif if (!running) { if (pthread_create(&thread, NULL, Runner, this)) { errorStr = "Cannot create thread."; printfd(__FILE__, "Cannot create thread\n"); return -1; } } return 0; } int SMUX::Stop() { printfd(__FILE__, "SMUX::Stop() - Before\n"); running = false; if (!stopped) { //5 seconds to thread stops itself for (int i = 0; i < 25 && !stopped; i++) { struct timespec ts = {0, 200000000}; nanosleep(&ts, NULL); } //after 5 seconds waiting thread still running. now killing it if (!stopped) { printfd(__FILE__, "SMUX::Stop() - failed to stop thread, killing it\n"); if (pthread_kill(thread, SIGINT)) { errorStr = "Cannot kill thread."; printfd(__FILE__, "SMUX::Stop() - Cannot kill thread\n"); return -1; } printfd(__FILE__, "SMUX::Stop() - killed Run\n"); } } pthread_join(thread, NULL); ResetNotifiers(); { Tables::iterator it; for (it = tables.begin(); it != tables.end(); ++it) delete it->second; } { Sensors::iterator it; for (it = sensors.begin(); it != sensors.end(); ++it) delete it->second; } tables.erase(tables.begin(), tables.end()); sensors.erase(sensors.begin(), sensors.end()); close(sock); printfd(__FILE__, "SMUX::Stop() - After\n"); return 0; } int SMUX::Reload() { if (Stop()) return -1; if (Start()) return -1; return 0; } void * SMUX::Runner(void * d) { sigset_t signalSet; sigfillset(&signalSet); pthread_sigmask(SIG_BLOCK, &signalSet, NULL); SMUX * smux = static_cast(d); smux->Run(); return NULL; } void SMUX::Run() { stopped = true; if (!SendOpenPDU(sock)) return; if (!SendRReqPDU(sock)) return; running = true; stopped = false; while(running) { if (WaitPackets(sock)) { SMUX_PDUs_t * pdus = RecvSMUXPDUs(sock); if (pdus) { DispatchPDUs(pdus); ASN_STRUCT_FREE(asn_DEF_SMUX_PDUs, pdus); } } if (!running) break; } SendClosePDU(sock); stopped = true; } bool SMUX::PrepareNet() { sock = socket(AF_INET, SOCK_STREAM, 0); if (sock < 0) { errorStr = "Cannot create socket."; printfd(__FILE__, "Cannot create socket\n"); return true; } struct sockaddr_in addr; addr.sin_family = AF_INET; addr.sin_port = htons(smuxSettings.GetPort()); addr.sin_addr.s_addr = smuxSettings.GetIP(); if (connect(sock, reinterpret_cast(&addr), sizeof(addr))) { errorStr = "Cannot connect."; printfd(__FILE__, "Cannot connect. Message: '%s'\n", strerror(errno)); return true; } return false; } bool SMUX::DispatchPDUs(const SMUX_PDUs_t * pdus) { SMUXHandlers::iterator it; it = smuxHandlers.find(pdus->present); if (it != smuxHandlers.end()) { return (this->*(it->second))(pdus); } else { #ifdef SMUX_DEBUG switch (pdus->present) { case SMUX_PDUs_PR_NOTHING: printfd(__FILE__, "PDUs: nothing\n"); break; case SMUX_PDUs_PR_open: printfd(__FILE__, "PDUs: open\n"); break; case SMUX_PDUs_PR_registerRequest: printfd(__FILE__, "PDUs: registerRequest\n"); break; default: printfd(__FILE__, "PDUs: undefined\n"); } asn_fprint(stderr, &asn_DEF_SMUX_PDUs, pdus); #endif } return false; } bool SMUX::UpdateTables() { Sensors newSensors; bool done = true; Tables::iterator it(tables.begin()); while (it != tables.end()) { try { it->second->UpdateSensors(newSensors); } catch (const std::runtime_error & ex) { printfd(__FILE__, "SMUX::UpdateTables - failed to update table '%s': '%s'\n", it->first.c_str(), ex.what()); done = false; break; } ++it; } if (!done) { Sensors::iterator it(newSensors.begin()); while (it != newSensors.end()) { delete it->second; ++it; } return false; } it = tables.begin(); while (it != tables.end()) { std::pair res; res = std::equal_range(sensors.begin(), sensors.end(), std::pair(OID(it->first), NULL), SPrefixLess); Sensors::iterator sit(res.first); while (sit != res.second) { delete sit->second; ++sit; } sensors.erase(res.first, res.second); ++it; } sensors.insert(newSensors.begin(), newSensors.end()); return true; } void SMUX::SetNotifier(USER_PTR userPtr) { notifiers.push_back(CHG_AFTER_NOTIFIER(*this, userPtr)); userPtr->GetProperty().tariffName.AddAfterNotifier(¬ifiers.back()); } void SMUX::UnsetNotifier(USER_PTR userPtr) { std::list::iterator it = notifiers.begin(); while (it != notifiers.end()) { if (it->GetUserPtr() == userPtr) { userPtr->GetProperty().tariffName.DelAfterNotifier(&(*it)); notifiers.erase(it); break; } ++it; } } void SMUX::SetNotifiers() { int h = users->OpenSearch(); assert(h && "USERS::OpenSearch is always correct"); USER_PTR u; while (!users->SearchNext(h, &u)) SetNotifier(u); users->CloseSearch(h); users->AddNotifierUserAdd(&addUserNotifier); users->AddNotifierUserDel(&delUserNotifier); tariffs->AddNotifierAdd(&addDelTariffNotifier); tariffs->AddNotifierDel(&addDelTariffNotifier); } void SMUX::ResetNotifiers() { tariffs->DelNotifierDel(&addDelTariffNotifier); tariffs->DelNotifierAdd(&addDelTariffNotifier); users->DelNotifierUserDel(&delUserNotifier); users->DelNotifierUserAdd(&addUserNotifier); std::list::iterator it = notifiers.begin(); while (it != notifiers.end()) { it->GetUserPtr()->GetProperty().tariffName.DelAfterNotifier(&(*it)); ++it; } } void CHG_AFTER_NOTIFIER::Notify(const std::string &, const std::string &) { smux.UpdateTables(); }