// Read config information. void SipRedirectorUserParam::readConfig(OsConfigDb& configDb) { mStripAll = configDb.getBoolean( StripAllUserParam, false ); OsSysLog::add(FAC_SIP, PRI_INFO, "%s::readConfig '%s' = %s", mLogName.data(), StripAllUserParam, mStripAll ? "TRUE" : "FALSE"); }
// Read config information. void SipRedirectorAliasDB::readConfig(OsConfigDb& configDb) { // read the domain configuration OsConfigDb domainConfiguration; domainConfiguration.loadFromFile(SipXecsService::domainConfigPath()); // get the shared secret for generating signatures SharedSecret secret(domainConfiguration); // Set secret for signing SipXauthIdentity SipXauthIdentity::setSecret(secret.data()); UtlString base64; NetBase64Codec::encode(secret, base64); Os::Logger::instance().log(FAC_SIP, PRI_DEBUG, "SipRedirectorAliasDB::readConfig" "%s::readConfig " "set SipXauthIdentity secret", mLogName.data() ); _enableDiversionHeader = configDb.getBoolean("SIP_REGISTRAR_ADD_DIVERSION", FALSE); _enableEarlyAliasResolution = configDb.getBoolean("SIP_REGISTRAR_EARLY_ALIAS_RESOLUTION", FALSE); }
// // The main entry point to the sipXpark // int main(int argc, char* argv[]) { // Block all signals in this the main thread. // Any threads created from now on will have all signals masked. OsTask::blockSignals(); // Create a new task to wait for signals. Only that task // will ever see a signal from the outside. SignalTask* signalTask = new SignalTask(); signalTask->start(); // Configuration Database (used for OsSysLog) OsConfigDb configDb; UtlString argString; for(int argIndex = 1; argIndex < argc; argIndex++) { osPrintf("arg[%d]: %s\n", argIndex, argv[argIndex]); argString = argv[argIndex]; NameValueTokenizer::frontBackTrim(&argString, "\t "); if(argString.compareTo("-v") == 0) { osPrintf("Version: %s (%s)\n", SIPX_VERSION, SIPX_BUILD); return(1); } else { osPrintf("usage: %s [-v]\nwhere:\n -v provides the software version\n", argv[0]); return(1); } } // Load configuration file file OsPath workingDirectory; if (OsFileSystem::exists(CONFIG_ETC_DIR)) { workingDirectory = CONFIG_ETC_DIR; OsPath path(workingDirectory); path.getNativePath(workingDirectory); } else { OsPath path; OsFileSystem::getWorkingDirectory(path); path.getNativePath(workingDirectory); } UtlString fileName = workingDirectory + OsPathBase::separator + CONFIG_SETTINGS_FILE; if (configDb.loadFromFile(fileName) != OS_SUCCESS) { exit(1); } // Initialize log file initSysLog(&configDb); // Read the user agent parameters from the config file. int UdpPort; if (configDb.get(CONFIG_SETTING_UDP_PORT, UdpPort) != OS_SUCCESS) UdpPort = PARK_DEFAULT_UDP_PORT; int TcpPort; if (configDb.get(CONFIG_SETTING_TCP_PORT, TcpPort) != OS_SUCCESS) TcpPort = PARK_DEFAULT_TCP_PORT; int RtpBase; if (configDb.get(CONFIG_SETTING_RTP_PORT, RtpBase) != OS_SUCCESS) RtpBase = DEFAULT_RTP_PORT; UtlString bindIp; if (configDb.get(CONFIG_SETTING_BIND_IP, bindIp) != OS_SUCCESS || !OsSocket::isIp4Address(bindIp)) bindIp = PARK_DEFAULT_BIND_IP; int MaxSessions; if (configDb.get(CONFIG_SETTING_MAX_SESSIONS, MaxSessions) != OS_SUCCESS) { MaxSessions = DEFAULT_MAX_SESSIONS; } UtlBoolean OneButtonBLF = configDb.getBoolean(CONFIG_SETTING_ONE_BUTTON_BLF, DEFAULT_ONE_BUTTON_BLF); UtlString domain; UtlString realm; UtlString user; SipLine* line = NULL; SipLineMgr* lineMgr = NULL; OsConfigDb domainConfiguration; OsPath domainConfigPath = SipXecsService::domainConfigPath(); if (OS_SUCCESS == domainConfiguration.loadFromFile(domainConfigPath.data())) { domainConfiguration.get(SipXecsService::DomainDbKey::SIP_DOMAIN_NAME, domain); domainConfiguration.get(SipXecsService::DomainDbKey::SIP_REALM, realm); if (!domain.isNull() && !realm.isNull()) { CredentialDB* credentialDb; if ((credentialDb = CredentialDB::getInstance())) { Url identity; identity.setUserId(PARK_SERVER_ID_TOKEN); identity.setHostAddress(domain); UtlString ha1_authenticator; UtlString authtype; if (credentialDb->getCredential(identity, realm, user, ha1_authenticator, authtype)) { if ((line = new SipLine( identity // user entered url ,identity // identity url ,user // user ,TRUE // visible ,SipLine::LINE_STATE_PROVISIONED ,TRUE // auto enable ,FALSE // use call handling ))) { if ((lineMgr = new SipLineMgr())) { if (lineMgr->addLine(*line)) { if (lineMgr->addCredentialForLine( identity, realm, user, ha1_authenticator ,HTTP_DIGEST_AUTHENTICATION ) ) { OsSysLog::add(LOG_FACILITY, PRI_INFO, "Added identity '%s': user='******' realm='%s'" ,identity.toString().data(), user.data(), realm.data() ); } else { OsSysLog::add(LOG_FACILITY, PRI_ERR, "Error adding identity '%s': user='******' realm='%s'\n" " escape and timeout from park may not work.", identity.toString().data(), user.data(), realm.data() ); } lineMgr->setDefaultOutboundLine(identity); } // end addLine else { OsSysLog::add(LOG_FACILITY, PRI_ERR, "addLine failed: " " escape and timeout from park may not work." ); } } else { OsSysLog::add(LOG_FACILITY, PRI_ERR, "Constructing SipLineMgr failed: " " escape and timeout from park may not work." ); } } // end new SipLine else { OsSysLog::add(LOG_FACILITY, PRI_ERR, "Constructing SipLine failed: " " escape and timeout from park may not work." ); } } // end getCredential else { OsSysLog::add(LOG_FACILITY, PRI_ERR, "No credential found for '%s@%s' in realm '%s'" "; transfer functions will not work", PARK_SERVER_ID_TOKEN, domain.data(), realm.data() ); } credentialDb->releaseInstance(); } // end credentialDB else { OsSysLog::add(LOG_FACILITY, PRI_ERR, "Failed to open credentials database" "; transfer functions will not work" ); } } // end have domain and realm else { OsSysLog::add(LOG_FACILITY, PRI_ERR, "Domain or Realm not configured:" "\n '%s' : '%s'\n '%s' : '%s'" " transfer functions will not work.", SipXecsService::DomainDbKey::SIP_DOMAIN_NAME, domain.data(), SipXecsService::DomainDbKey::SIP_REALM, realm.data() ); } } // end found domain config else { OsSysLog::add(LOG_FACILITY, PRI_ERR, "main: failed to load domain configuration from '%s'", domainConfigPath.data() ); } // Read Park Server parameters from the config file. int Lifetime, BlindXferWait, KeepAliveTime, ConsXferWait; if (configDb.get(CONFIG_SETTING_LIFETIME, Lifetime) != OS_SUCCESS) { Lifetime = DEFAULT_LIFETIME; } if (configDb.get(CONFIG_SETTING_BLIND_WAIT, BlindXferWait) != OS_SUCCESS) { BlindXferWait = DEFAULT_BLIND_WAIT; } if (configDb.get(CONFIG_SETTING_KEEPALIVE_TIME, KeepAliveTime) != OS_SUCCESS) { KeepAliveTime = DEFAULT_KEEPALIVE_TIME; } // This is not configurable, as consultative transfers should // succeed or fail immediately. ConsXferWait = CONS_XFER_WAIT; // Bind the SIP user agent to a port and start it up SipUserAgent* userAgent = new SipUserAgent(TcpPort, UdpPort, TcpPort+1, NULL, // publicAddress user.isNull() ? NULL : user.data(), // default user bindIp, domain.isNull() ? NULL : domain.data(), // outbound proxy NULL, // sipDirectoryServers (deprecated) NULL, // sipRegistryServers (deprecated) NULL, // authenticationScheme NULL, // authenicateRealm NULL, // authenticateDb NULL, // authorizeUserIds (deprecated) NULL, // authorizePasswords (deprecated) lineMgr ); userAgent->setUserAgentHeaderProperty("sipXecs/park"); userAgent->start(); if (!userAgent->isOk()) { OsSysLog::add(LOG_FACILITY, PRI_EMERG, "SipUserAgent failed to initialize, requesting shutdown"); gShutdownFlag = TRUE; } // Read the list of codecs from the configuration file. SdpCodecFactory codecFactory; initCodecs(&codecFactory, &configDb); // Initialize and start up the media subsystem mpStartUp(MP_SAMPLE_RATE, MP_SAMPLES_PER_FRAME, 6 * MaxSessions, &configDb); MpMediaTask::getMediaTask(MaxSessions); #ifdef INCLUDE_RTCP CRTCManager::getRTCPControl(); #endif //INCLUDE_RTCP mpStartTasks(); // Instantiate the call processing subsystem UtlString localAddress; int localPort ; userAgent->getLocalAddress(&localAddress, &localPort) ; if (localAddress.isNull()) OsSocket::getHostIp(&localAddress); // Construct an address to be used in outgoing requests (primarily // INVITEs stimulated by REFERs). UtlString outgoingAddress; { char buffer[100]; sprintf(buffer, "sip:sipXpark@%s:%d", localAddress.data(), portIsValid(UdpPort) ? UdpPort : TcpPort); outgoingAddress = buffer; } CallManager callManager(FALSE, NULL, TRUE, // early media in 180 ringing &codecFactory, RtpBase, // rtp start RtpBase + (2 * MaxSessions), // rtp end localAddress, localAddress, userAgent, 0, // sipSessionReinviteTimer NULL, // mgcpStackTask outgoingAddress, // defaultCallExtension Connection::RING, // availableBehavior NULL, // unconditionalForwardUrl -1, // forwardOnNoAnswerSeconds NULL, // forwardOnNoAnswerUrl Connection::BUSY, // busyBehavior NULL, // sipForwardOnBusyUrl NULL, // speedNums CallManager::SIP_CALL, // phonesetOutgoingCallProtocol 4, // numDialPlanDigits CallManager::NEAR_END_HOLD, // holdType 5000, // offeringDelay "", // pLocal CP_MAXIMUM_RINGING_EXPIRE_SECONDS, // inviteExpiresSeconds QOS_LAYER3_LOW_DELAY_IP_TOS, // expeditedIpTos MaxSessions, // maxCalls sipXmediaFactoryFactory(NULL)); // CpMediaInterfaceFactory // Create a listener (application) to deal with call // processing events (e.g. incoming call and hang ups) OrbitListener listener(&callManager, Lifetime, BlindXferWait, KeepAliveTime, ConsXferWait); callManager.addTaoListener(&listener); listener.start(); // Create the SIP Subscribe Server SipPersistentSubscriptionMgr subscriptionMgr(SUBSCRIPTION_COMPONENT_PARK, domain, "subscription"); // Component for holding the subscription data SipSubscribeServerEventHandler policyHolder; // Component for granting the subscription rights SipPublishContentMgr publisher; // Component for publishing the event contents SipSubscribeServer subscribeServer(*userAgent, publisher, subscriptionMgr, policyHolder); subscribeServer.enableEventType(DIALOG_EVENT_TYPE); subscribeServer.start(); // Create the DialogEventPublisher. // Use the sipX domain as the hostport of resource-IDs of the // published events, as that will be the request-URIs of SUBSCRIBEs. DialogEventPublisher dialogEvents(&callManager, &publisher, domain, PORT_NONE, OneButtonBLF); callManager.addTaoListener(&dialogEvents); dialogEvents.start(); // Start up the call processing system callManager.start(); // Loop forever until signaled to shut down int numTwoSecIntervals = 0; int CleanLoopWaitTimeSecs = 10; while (!gShutdownFlag) { OsTask::delay(2000); if (2*numTwoSecIntervals >= CleanLoopWaitTimeSecs) { numTwoSecIntervals = 0; if (OsSysLog::willLog(FAC_PARK, PRI_DEBUG)) { OsSysLog::add(LOG_FACILITY, PRI_DEBUG, "park main " "logging call status" ); callManager.printCalls(0) ; listener.dumpCallsAndTransfers(); } } else { numTwoSecIntervals += 1; } } // Flush the log file OsSysLog::flush(); // Say goodnight Gracie... return 0; }
// Read config information. void SipRedirectorJoin::readConfig(OsConfigDb& configDb) { // The return status. // It will be OS_SUCCESS if this redirector is configured to do any work, // and OS_FAILED if not. mRedirectorActive = OS_FAILED; // Fetch the configuration parameters for the workaround features. // Defaults are set to match the previous behavior of the code. // One-second subscriptions. mOneSecondSubscription = configDb.getBoolean(CONFIG_SETTING_1_SEC, TRUE); Os::Logger::instance().log(FAC_SIP, PRI_INFO, "%s::readConfig mOneSecondSubscription = %d", mLogName.data(), mOneSecondSubscription); // Fetch the call join festure code from the config file. // If it is null, it doesn't count. if ((configDb.get(CONFIG_SETTING_JOIN_CODE, mCallJoinCode) != OS_SUCCESS) || mCallJoinCode.isNull()) { Os::Logger::instance().log(FAC_SIP, PRI_INFO, "%s::readConfig No call join feature code specified", mLogName.data()); } else { // Call join feature code is configured. // Initialize the system. Os::Logger::instance().log(FAC_SIP, PRI_INFO, "%s::readConfig Call join feature code is '%s'", mLogName.data(), mCallJoinCode.data()); mRedirectorActive = OS_SUCCESS; // Record the two user-names that are excluded as being pick-up requests. mExcludedUser1 = mCallJoinCode; mExcludedUser1.append("*"); mExcludedUser2 = mCallJoinCode; mExcludedUser2.append("#"); } // Get the wait time for NOTIFYs in response to our SUBSCRIBEs. // Set the default value, to be overridden if the user specifies a valid // value. mWaitSecs = DEFAULT_WAIT_TIME_SECS; mWaitUSecs = DEFAULT_WAIT_TIME_USECS; Os::Logger::instance().log(FAC_SIP, PRI_DEBUG, "%s::readConfig Default wait time is %d.%06d", mLogName.data(), mWaitSecs, mWaitUSecs); // Fetch the parameter value. UtlString waitUS; float waitf; if (configDb.get(CONFIG_SETTING_WAIT, waitUS) == OS_SUCCESS) { Os::Logger::instance().log(FAC_SIP, PRI_DEBUG, "%s::readConfig " CONFIG_SETTING_WAIT " is '%s'", mLogName.data(), waitUS.data()); // Parse the value, checking for errors. unsigned int char_count; sscanf(waitUS.data(), " %f %n", &waitf, &char_count); if (char_count != waitUS.length()) { Os::Logger::instance().log(FAC_SIP, PRI_ERR, "%s::readConfig Invalid format for " CONFIG_SETTING_WAIT " '%s'", mLogName.data(), waitUS.data()); } else if ( // Check that the value is in range. !(waitf >= MIN_WAIT_TIME && waitf <= MAX_WAIT_TIME)) { Os::Logger::instance().log(FAC_SIP, PRI_ERR, "%s::readConfig " CONFIG_SETTING_WAIT " (%f) outside allowed range (%f to %f)", mLogName.data(), waitf, MIN_WAIT_TIME, MAX_WAIT_TIME); } else { // Extract the seconds and microseconds, being careful to round // because the conversion from character data may have // been inexact. // Since waitf <= 100, usecs <= 100,000,000. int usecs = (int)((waitf * 1000000) + 0.0000005); mWaitSecs = usecs / 1000000; mWaitUSecs = usecs % 1000000; Os::Logger::instance().log(FAC_SIP, PRI_DEBUG, "%s::readConfig Wait time is %d.%06d", mLogName.data(), mWaitSecs, mWaitUSecs); } } }
// Read config information. void SipRedirectorPresenceRouting::readConfig(OsConfigDb& configDb) { // extract the realm information from the config DB - we need this part // to do the credentials db look-up. if ((configDb.get(CONFIG_SETTING_REALM, mRealm) != OS_SUCCESS) || mRealm.isNull()) { OsSysLog::add(FAC_SIP, PRI_ERR, "%s::readConfig No Realm specified in the configuration", mLogName.data()); } else { OsSysLog::add(FAC_SIP, PRI_INFO, "%s::readConfig mRealm = '%s'", mLogName.data(), mRealm.data() ); } mbForwardToVmOnBusy = configDb.getBoolean(CONFIG_SETTING_VOICEMAIL_ON_BUSY, FALSE); OsSysLog::add(FAC_SIP, PRI_INFO, "%s::readConfig mbForwardToVmOnBusy = %d", mLogName.data(), mbForwardToVmOnBusy); UtlString prefsFilename; configDb.get(CONFIG_SETTING_USER_PREFS_FILE, prefsFilename); OsSysLog::add(FAC_SIP, PRI_INFO, "%s::readConfig prefsFilename = %s", mLogName.data(), prefsFilename.data()); mUserPrefs.loadPrefs( prefsFilename ); UtlString openFirePresenceServerUrlAsString; if ((configDb.get(CONFIG_OPENFIRE_PRESENCE_SERVER_URL, openFirePresenceServerUrlAsString) != OS_SUCCESS) || openFirePresenceServerUrlAsString.isNull()) { OsSysLog::add(FAC_SIP, PRI_ERR, "%s::readConfig No URL specified for openfire presence server in the configuration", mLogName.data()); } else { OsSysLog::add(FAC_SIP, PRI_INFO, "%s::readConfig openFirePresenceServerUrlAsString = '%s'", mLogName.data(), openFirePresenceServerUrlAsString.data() ); mOpenFirePresenceServerUrl.fromString( openFirePresenceServerUrlAsString ); } UtlString presenceMonitorServerUrlAsString; if ((configDb.get(CONFIG_PRESENCE_MONITOR_SERVER_URL, presenceMonitorServerUrlAsString) != OS_SUCCESS) || presenceMonitorServerUrlAsString.isNull()) { OsSysLog::add(FAC_SIP, PRI_ERR, "%s::readConfig No URL specified for local presence monitor server in the configuration", mLogName.data()); } else { OsSysLog::add(FAC_SIP, PRI_INFO, "%s::readConfig presenceMonitorServerUrlAsString = '%s'", mLogName.data(), presenceMonitorServerUrlAsString.data() ); mLocalPresenceMonitorServerUrl.fromString( presenceMonitorServerUrlAsString ); } }
// Read config information. void SipRedirectorFallback::readConfig(OsConfigDb& configDb) { configDb.get("MAPPING_RULES_FILENAME", mFileName); mAllowUnbound = configDb.getBoolean("ALLOW_UNBOUND", false); }