int main(int argc, char* argv[])
{
   // All osPrintf output should go to the console until the log file is initialized.
   enableConsoleOutput(true);

   UtlString argString;

    for (int argIndex = 1; argIndex < argc; argIndex++)
    {
        bool usageExit = false;
        int valueExit = 1;

        argString = argv[argIndex];
        NameValueTokenizer::frontBackTrim(&argString, "\t ");

        if (argString.compareTo("-h") == 0)
        {
           usageExit = true;
           valueExit = 0;
        }
        if (argString.compareTo("-v") == 0)
        {
           osPrintf("sipxsupervisor %s\n\n", VERSION);
           return 0;
        }
        else
        {
            // Unknown argument.
            usageExit = true;
        }

        if (usageExit)
        {
            osPrintf("usage: %s [-h] [-v]\n", argv[0]);
            osPrintf(" -h           Print this help and exit.\n");
            osPrintf(" -v           Print version number.\n");
            return valueExit;
        }
    }

    // Write this process's pid into the supervisor pidfile
    writePidToFile();

    return supervisorMain(true);
}
示例#2
0
int main(int argc, char* argv[])
{
    enableConsoleOutput(FALSE) ;

    // Get the top level suite from the registry
    CppUnit::Test *suite = CppUnit::TestFactoryRegistry::getRegistry().makeTest();

    // Adds the test to the list of tests to run
    CppUnit::TextUi::TestRunner runner ;
    runner.addTest(suite) ;

    // Change the default outputter to a compiler error format outputter
    runner.setOutputter(new CppUnit::CompilerOutputter(&runner.result(), std::cerr)) ;

    // Run the tests.
    bool wasSuccessful = runner.run() ;

    // Return error code 1 if one of the tests failed.
    return wasSuccessful ? 0 : 1 ;
}
示例#3
0
int main(int argc, char* argv[])
{
   int provisioningAgentPort = 8110;
   int watchdogRpcServerPort = 8092;
   ACDServer* pAcdServer;

   // Disable osPrintf's
   enableConsoleOutput(false);

   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) {
         enableConsoleOutput(true);
         osPrintf("Version: %s (%s)\n", PACKAGE_VERSION, PACKAGE_REVISION);
         return(1);
      }
      else if (argString.compareTo("-c") == 0) {
         // Enable osPrintf's
         enableConsoleOutput(true);
      }
      else if (argString.compareTo("-d") == 0) {
         // Switch ACDServer PRI_DEBUG to PRI_NOTICE
         gACD_DEBUG = PRI_NOTICE;
      }
      else if (argString.compareTo("-P") == 0) {
         argString = argv[++argIndex];
         provisioningAgentPort = atoi(argString.data());
      }
      else if (argString.compareTo("-W") == 0) {
         argString = argv[++argIndex];
         watchdogRpcServerPort = atoi(argString.data());
      }
      else {
         enableConsoleOutput(true);
         osPrintf("usage: %s [-v] [-c] [-d] [-P port] [-W wport]\nwhere:\n -v      Provides the software version\n"
                  " -c       Enables console output of log and debug messages\n"
                  " -d       Changes ACDServer DEBUG logging to run at NOTICE level\n"
                  " -P port  Specifies the provisioning interface port number\n"
                  " -W wport Specifies the Watchdog interface port number\n",
                  argv[0]);
         return(1);
      }
   }


   // Create the ACDServer and get to work.
   pAcdServer = new ACDServer(provisioningAgentPort, watchdogRpcServerPort);

   // Loop forever until signaled to shut down
   while (!Os::UnixSignals::instance().isTerminateSignalReceived() && !gShutdownFlag) {
      OsTask::delay(2000);
   }

   // Shut down the ACDServer.
   delete pAcdServer;

   // Flush the log file
   Os::Logger::instance().flush();

   // Say goodnight Gracie...

   // Use _exit to avoid the atexit() processing which will cause the
   // destruction of static objects...yet there are still threads out
   // there using those static objects.  This prevents core dumps
   // due to those threads accessing the static objects post destruction.
   //
   // --Woof!

   _exit(0);

   /*NOTREACHED*/
   return 0 ; // To appease the compiler gods
}
    virtual void setUp()
    {
        enableConsoleOutput(0);

        mpMediaFactory = sipXmediaFactoryFactory(NULL);
    } 
示例#5
0
int main(int argc, char* argv[])
{
   const char* configFileName = "siptest-config";
   int proxyTcpPort;
   int proxyUdpPort;
   int proxyTlsPort;
   OsConfigDb configDb;

   // siptest uses osPrintf for output, so we have to un-suppress it.
   enableConsoleOutput(TRUE);

   if(configDb.loadFromFile(configFileName) == OS_SUCCESS)
   {
      osPrintf("Found config file: %s\n", configFileName);
   }
   else
   {
      configDb.set("SIP_TEST_UDP_PORT", "3000");
      configDb.set("SIP_TEST_TCP_PORT", "3000");
      configDb.set("SIP_TEST_TLS_PORT", "3001");

      if(configDb.storeToFile(configFileName) == OS_SUCCESS)
      {
         osPrintf("Could not write config file: %s\n", configFileName);
      }
   }

   proxyUdpPort = configDb.getPort("SIP_TEST_UDP_PORT") ;
   proxyTcpPort = configDb.getPort("SIP_TEST_TCP_PORT") ;
   proxyTlsPort = configDb.getPort("SIP_TEST_TLS_PORT") ;

   UtlBoolean commandStatus = CommandProcessor::COMMAND_SUCCESS;
   char buffer[1024];
   char* commandLine;
   CommandProcessor processor;

   SipLineMgr*    lineMgr = new SipLineMgr();
   SipRefreshMgr* refreshMgr = new SipRefreshMgr();

   lineMgr->StartLineMgr();
   lineMgr->initializeRefreshMgr( refreshMgr );

   SipUserAgent*  sipUA = new SipUserAgent( proxyTcpPort
                                            ,proxyUdpPort
                                            ,proxyTlsPort
                                            ,NULL         // default publicAddress
                                            ,NULL         // default defaultUser
                                            ,NULL         // default defaultSipAddress
                                            ,NULL         // default sipProxyServers
                                            ,NULL         // default sipDirectoryServers
                                            ,NULL         // default sipRegistryServers
                                            ,NULL         // default authenicateRealm
                                            ,NULL         // default authenticateDb
                                            ,NULL         // default authorizeUserIds
                                            ,NULL         // default authorizePasswords
                                            ,lineMgr
      );
   sipUA->allowMethod(SIP_REGISTER_METHOD);
   sipUA->allowMethod(SIP_SUBSCRIBE_METHOD);
   sipUA->allowMethod(SIP_NOTIFY_METHOD);

   sipUA->start();

   sipUA->startMessageLog();
   osPrintf( "SIP logging Started\n" );

   refreshMgr->init( sipUA );

   CommandMsgProcessor* msgProc = new CommandMsgProcessor(sipUA);
   msgProc->start();

   processor.registerCommand("help", new HelpCommand(&processor));
   processor.registerCommand("?", new HelpCommand(&processor));
   processor.registerCommand("history", new HistoryCommand(&processor));
   processor.registerCommand("send", new SipSendCommand(sipUA));
   processor.registerCommand("lsend", new SipLSendCommand());
   processor.registerCommand("get", new HttpGetCommand());
   processor.registerCommand("respond", new RespondCommand(msgProc));
   processor.registerCommand("rt", new RespondTemplate(msgProc));
   processor.registerCommand("rrespond", new ResendResponse(msgProc));
   processor.registerCommand("log", new SipLogCommand(*sipUA));
   processor.registerCommand("auth", new AuthCommand(lineMgr));
   processor.registerCommand("sleep", new SleepCommand());
   processor.registerCommand("quit", new ExitCommand());
   processor.registerCommand("exit", new ExitCommand());

   //Initialization
   UtlBoolean doPrompt = isatty(STDIN_FILENO);

   if ( doPrompt )
   {
      printf("Enter command or help/? for help\n");
      printf("SIPdriver: ");
   }

   for ( commandStatus = CommandProcessor::COMMAND_SUCCESS;
         (   commandStatus < CommandProcessor::COMMAND_FAILED_EXIT
             && commandStatus != CommandProcessor::COMMAND_SUCCESS_EXIT
             && (commandLine = fgets(buffer,1024,stdin))
            );
      )
   {
      //printf("GOT command line:\"%s\"\n", commandLine);
      commandStatus = processor.executeCommand(commandLine);
      //printf("command status: %d exit status: %d\n", commandStatus,
      //CommandProcessor::COMMAND_SUCCESS_EXIT);
      if ( doPrompt )
      {
         printf("SIPdriver: ");
      }
   }

   delete msgProc;
   delete sipUA;

   return CommandProcessor::COMMAND_SUCCESS_EXIT != commandStatus;
}
int supervisorMain(bool bOriginalSupervisor)
{
    // Create forked process which will do nothing unless parent dies.  Parent continues with initialization.
    forkSupervisorInWaiting();

    // Drop privileges down to the specified user & group
    const char * sipxpbxuser = SipXecsService::User();
    const char * sipxpbxgroup = SipXecsService::Group();

    if (NULL == sipxpbxuser || 0 == strlen(sipxpbxuser))
    {
       osPrintf("sipXsupervisor: Failed to setuid(%s), username not defined.\n",
          sipxpbxuser);
       return 2;
    }
    if (NULL == sipxpbxgroup || 0 == strlen(sipxpbxgroup))
    {
       osPrintf("sipXsupervisor: Failed to setgid(%s), groupname not defined.\n",
          sipxpbxgroup);
       return 2;
    }

    struct group * grp = getgrnam(sipxpbxgroup);
    if (NULL == grp)
    {
       if (0 != errno)
       {
          osPrintf("getgrnam(%s) failed, errno = %d.",
             sipxpbxgroup, errno);
       }
       else
       {
          osPrintf(
             "sipXsupervisor: getgrnam(%s) failed, user does not exist.",
                sipxpbxgroup);
       }
       return 3;
    }

    struct passwd * pwd = getpwnam(sipxpbxuser);
    if (NULL == pwd)
    {
       if (0 != errno)
       {
          osPrintf("getpwnam(%s) failed, errno = %d.",
             sipxpbxuser, errno);
       }
       else
       {
          osPrintf(
             "sipXsupervisor: getpwnam(%s) failed, user does not exist.",
                sipxpbxuser);
       }
       return 3;
    }

    // Change group first, cause once user is changed this cannot be done.
    if (0 != setgid(grp->gr_gid))
    {
       osPrintf("sipXsupervisor: setgid(%d) failed, errno = %d.",
          (int)grp->gr_gid, errno);
       return 4;
    }

    if (0 != setuid(pwd->pw_uid))
    {
       osPrintf("sipXsupervisor: setuid(%d) failed, errno = %d.",
          (int)pwd->pw_uid, errno);
       return 4;
    }


# if 0
// Only output problems.  This keeps the startup output clean.
    osPrintf("sipXsupervisor: Dropped privileges with setuid(%s)/setgid(%s).",
       sipxpbxuser, sipxpbxgroup);
#endif

    OsMsgQShared::setQueuePreference(OsMsgQShared::QUEUE_UNLIMITED);

    // Block all signals in this the main thread
    // Any threads created after this 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() ;

    // All osPrintf output should go to the console until the log file is initialized.
    enableConsoleOutput(true);

    // Initialize the log file.
    Os::LoggerHelper::instance().processName = "Supervisor";
    UtlString logFile = SipXecsService::Path(SipXecsService::LogDirType, "sipxsupervisor.log");
    Os::LoggerHelper::instance().initialize(PRI_DEBUG, logFile.data());

    if (!bOriginalSupervisor)
    {
       Os::Logger::instance().log(FAC_SUPERVISOR, PRI_CRIT,
                     "Restarting sipxsupervisor after unexpected shutdown");
    }
    Os::Logger::instance().log(FAC_SUPERVISOR, PRI_NOTICE,
                  ">>>>> Starting sipxsupervisor version %s",
                  VERSION);

    // Now that the log file is initialized, stop sending osPrintf to the console.
    // All relevant log messages from this point on must use Os::Logger::instance().log().
    enableConsoleOutput(false);
    fflush(NULL); // Flush all output so children don't get a buffer of output

    // Open the supervisor configuration file
    OsConfigDb supervisorConfiguration;
    OsPath supervisorConfigPath = SipXecsService::Path(SipXecsService::ConfigurationDirType,
                                                       CONFIG_SETTINGS_FILE);
    if (OS_SUCCESS != supervisorConfiguration.loadFromFile(supervisorConfigPath.data()))
    {
       Os::Logger::instance().log(FAC_SUPERVISOR,PRI_WARNING,
                     "Failed to open supervisor configuration file at '%s'",
                     supervisorConfigPath.data()
                     );
    }

    // Set logging based on the supervisor configuration - TODO change default to "NOTICE" ?
    OsSysLogPriority logPri = SipXecsService::setLogPriority(supervisorConfiguration, SUPERVISOR_PREFIX, PRI_INFO );
    Os::Logger::instance().setLoggingPriorityForFacility(FAC_ALARM, logPri);

    // Open the domain configuration file
    OsConfigDb domainConfiguration;
    OsPath domainConfigPath = SipXecsService::domainConfigPath();
    if (OS_SUCCESS != domainConfiguration.loadFromFile(domainConfigPath.data()))
    {
       Os::Logger::instance().log(FAC_SUPERVISOR,PRI_ERR,
                     "Failed to open domain configuration '%s'",
                     domainConfigPath.data()
                     );
    }
    // @TODO const char* managementIpBindAddress;
    int managementPortNumber;
    managementPortNumber = domainConfiguration.getPort(SipXecsService::DomainDbKey::SUPERVISOR_PORT);
    if (PORT_NONE == managementPortNumber)
    {
       Os::Logger::instance().log(FAC_SUPERVISOR,PRI_WARNING,
                     "%s not configured in '%s', using default: %d",
                     SipXecsService::DomainDbKey::SUPERVISOR_PORT,
                     domainConfigPath.data(), DEFAULT_SUPERVISOR_PORT
                     );
       managementPortNumber=DEFAULT_SUPERVISOR_PORT;
    }
    else if (PORT_DEFAULT == managementPortNumber)
    {
       Os::Logger::instance().log(FAC_SUPERVISOR,PRI_NOTICE,"%s set to default: %d",
                     SipXecsService::DomainDbKey::SUPERVISOR_PORT, DEFAULT_SUPERVISOR_PORT
                     );
       managementPortNumber=DEFAULT_SUPERVISOR_PORT;
    }

    UtlSList allowedPeers;
    UtlString configHosts;
    domainConfiguration.get(SipXecsService::DomainDbKey::CONFIG_HOSTS, configHosts);
    if (!configHosts.isNull())
    {
       UtlString hostName;
       for (int hostIndex = 0;
            NameValueTokenizer::getSubField(configHosts.data(), hostIndex, ", \t", &hostName);
            hostIndex++)
       {
          // Found at least one config hostname.
          if (!allowedPeers.contains(&hostName))
          {
             Os::Logger::instance().log(FAC_SUPERVISOR,PRI_DEBUG,
                           "%s value '%s'",
                           SipXecsService::DomainDbKey::CONFIG_HOSTS,
                           hostName.data()
                           );
             allowedPeers.insert(new UtlString(hostName));
          }
       }
    }
    else
    {
       Os::Logger::instance().log(FAC_SUPERVISOR,PRI_ERR,
                     "%s not configured in '%s'",
                     SipXecsService::DomainDbKey::CONFIG_HOSTS, domainConfigPath.data()
                     );
    }

    UtlString superHost;
    supervisorConfiguration.get(SUPERVISOR_HOST, superHost);
    if (!superHost.isNull())
    {
       if (!allowedPeers.contains(&superHost))
       {
          allowedPeers.insert(new UtlString(superHost));
       }
    }
    else
    {
       Os::Logger::instance().log(FAC_SUPERVISOR,PRI_ERR,
                     "%s not configured in '%s'",
                     SUPERVISOR_HOST, supervisorConfigPath.data()
                     );
    }

    if (allowedPeers.isEmpty())
    {
       Os::Logger::instance().log(FAC_SUPERVISOR,PRI_ERR,
                     "No configuration peers configured.");
    }

    if (!cAlarmServer::getInstance()->init())
    {
       Os::Logger::instance().log(FAC_SUPERVISOR, PRI_ERR,
             "sipXsupervisor failed to init AlarmServer");
    }

    // Initialize management interfaces on the TLS socket
    OsSSLServerSocket serverSocket(50, managementPortNumber /*@TODO managementIpBindAddress */);
    HttpServer        httpServer(&serverSocket); // set up but don't start https server
    XmlRpcDispatch    xmlRpcDispatcher(&httpServer); // attach xml-rpc service to https
    pSipxRpcImpl = new SipxRpc(&xmlRpcDispatcher, allowedPeers); // register xml-rpc methods
    HttpFileAccess    fileAccessService(&httpServer, pSipxRpcImpl); // attach file xfer to https

    if (serverSocket.isOk())
    {
       Os::Logger::instance().log(FAC_SUPERVISOR, PRI_DEBUG, "Starting Management HTTP Server");
       httpServer.start();
    }
    else
    {
       Os::Logger::instance().log(FAC_SUPERVISOR, PRI_ERR, "Management listening socket failure");
    }

    // Read the process definitions.
    UtlString processDefinitionDirectory =
       SipXecsService::Path(SipXecsService::DataDirType, "process.d");
    SipxProcessManager* processManager = SipxProcessManager::getInstance();
    processManager->instantiateProcesses(processDefinitionDirectory);

    // 3.0 had different process def files.  The only important thing in them is the
    // state of the services.  Transfer this state to the new process def files.
    upgradeFrom3_0();

    doWaitLoop();

    // Successful run.
    return 0;
}