MMDVMHost.cpp

/*
 *   Copyright (C) 2015,2016,2017,2018 by Jonathan Naylor G4KLX
 *
 *   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., 675 Mass Ave, Cambridge, MA 02139, USA.
 */

#include "MMDVMHost.h"
#include "RSSIInterpolator.h"
#include "SerialController.h"
#include "ModemSerialPort.h"
#include "Version.h"
#include "StopWatch.h"
#include "Defines.h"
#include "DStarControl.h"
#include "DMRControl.h"
#include "TFTSerial.h"
#include "NullDisplay.h"
#include "YSFControl.h"
#include "P25Control.h"
#include "Nextion.h"
#include "LCDproc.h"
#include "Thread.h"
#include "Log.h"
#include "GitVersion.h"

#if defined(HD44780)
#include "HD44780.h"
#endif

#if defined(OLED)
#include "OLED.h"
#endif

#include <cstdio>
#include <vector>

#if !defined(_WIN32) && !defined(_WIN64)
#include <sys/types.h>
#include <unistd.h>
#include <signal.h>
#include <fcntl.h>
#include <pwd.h>
#endif

#if defined(_WIN32) || defined(_WIN64)
const char* DEFAULT_INI_FILE = "MMDVM.ini";
#else
const char* DEFAULT_INI_FILE = "/etc/MMDVM.ini";
#endif

static bool m_killed = false;
static int  m_signal = 0;

#if !defined(_WIN32) && !defined(_WIN64)
static void sigHandler(int signum)
{
	m_killed = true;
	m_signal = signum;
}
#endif

const char* HEADER1 = "This software is for use on amateur radio networks only,";
const char* HEADER2 = "it is to be used for educational purposes only. Its use on";
const char* HEADER3 = "commercial networks is strictly prohibited.";
const char* HEADER4 = "Copyright(C) 2015-2017 by Jonathan Naylor, G4KLX and others";

int main(int argc, char** argv)
{
	const char* iniFile = DEFAULT_INI_FILE;
	if (argc > 1) {
 		for (int currentArg = 1; currentArg < argc; ++currentArg) {
			std::string arg = argv[currentArg];
			if ((arg == "-v") || (arg == "--version")) {
				::fprintf(stdout, "MMDVMHost version %s git #%.7s\n", VERSION, gitversion);
				return 0;
			} else if (arg.substr(0,1) == "-") {
				::fprintf(stderr, "Usage: MMDVMHost [-v|--version] [filename]\n");
				return 1;
			} else {
				iniFile = argv[currentArg];
			}
		}
	}

#if !defined(_WIN32) && !defined(_WIN64)
	::signal(SIGINT,  sigHandler);
	::signal(SIGTERM, sigHandler);
	::signal(SIGHUP,  sigHandler);
#endif

	int ret = 0;

	do {
		m_signal = 0;

		CMMDVMHost* host = new CMMDVMHost(std::string(iniFile));
		ret = host->run();

		delete host;

		if (m_signal == 2)
			::LogInfo("MMDVMHost-%s exited on receipt of SIGINT", VERSION);

		if (m_signal == 15)
			::LogInfo("MMDVMHost-%s exited on receipt of SIGTERM", VERSION);

		if (m_signal == 1)
			::LogInfo("MMDVMHost-%s is restarting on receipt of SIGHUP", VERSION);
	} while (m_signal == 1);

	::LogFinalise();

	return ret;
}

CMMDVMHost::CMMDVMHost(const std::string& confFile) :
m_conf(confFile),
m_modem(NULL),
m_dstarNetwork(NULL),
m_dmrNetwork(NULL),
m_ysfNetwork(NULL),
m_p25Network(NULL),
m_display(NULL),
m_ump(NULL),
m_mode(MODE_IDLE),
m_dstarRFModeHang(10U),
m_dmrRFModeHang(10U),
m_ysfRFModeHang(10U),
m_p25RFModeHang(10U),
m_dstarNetModeHang(3U),
m_dmrNetModeHang(3U),
m_ysfNetModeHang(3U),
m_p25NetModeHang(3U),
m_modeTimer(1000U),
m_dmrTXTimer(1000U),
m_cwIdTimer(1000U),
m_duplex(false),
m_timeout(180U),
m_dstarEnabled(false),
m_dmrEnabled(false),
m_ysfEnabled(false),
m_p25Enabled(false),
m_cwIdTime(0U),
m_lookup(NULL),
m_callsign(),
m_id(0U),
m_cwCallsign()
{
}

CMMDVMHost::~CMMDVMHost()
{
}

int CMMDVMHost::run()
{
	bool ret = m_conf.read();
	if (!ret) {
		::fprintf(stderr, "MMDVMHost: cannot read the .ini file\n");
		return 1;
	}

	ret = ::LogInitialise(m_conf.getLogFilePath(), m_conf.getLogFileRoot(), m_conf.getLogFileLevel(), m_conf.getLogDisplayLevel());
	if (!ret) {
		::fprintf(stderr, "MMDVMHost: unable to open the log file\n");
		return 1;
	}

#if !defined(_WIN32) && !defined(_WIN64)
	bool m_daemon = m_conf.getDaemon();
	if (m_daemon) {
		// Create new process
		pid_t pid = ::fork();
		if (pid == -1) {
			LogWarning("Couldn't fork() , exiting");
			return -1;
		} else if (pid != 0) {
			exit(EXIT_SUCCESS);
		}

		// Create new session and process group
		if (::setsid() == -1){
			LogWarning("Couldn't setsid(), exiting");
			return -1;
		}

		// Set the working directory to the root directory
		if (::chdir("/") == -1){
			LogWarning("Couldn't cd /, exiting");
			return -1;
		}

		::close(STDIN_FILENO);
		::close(STDOUT_FILENO);
		::close(STDERR_FILENO);

#if !defined(HD44780) && !defined(OLED)
		//If we are currently root...
		if (getuid() == 0) {
			struct passwd* user = ::getpwnam("mmdvm");
			if (user == NULL) {
				LogError("Could not get the mmdvm user, exiting");
				return -1;
			}

			uid_t mmdvm_uid = user->pw_uid;
			gid_t mmdvm_gid = user->pw_gid;

			//Set user and group ID's to mmdvm:mmdvm
			if (::setgid(mmdvm_gid) != 0) {
				LogWarning("Could not set mmdvm GID, exiting");
				return -1;
			}

			if (::setuid(mmdvm_uid) != 0) {
				LogWarning("Could not set mmdvm UID, exiting");
				return -1;
			}

			//Double check it worked (AKA Paranoia) 
			if (::setuid(0) != -1){
				LogWarning("It's possible to regain root - something is wrong!, exiting");
				return -1;
			}
		}
	}
#else
	LogWarning("Dropping root permissions in daemon mode is disabled with HD44780 display");
	}
#endif
#endif

	LogInfo(HEADER1);
	LogInfo(HEADER2);
	LogInfo(HEADER3);
	LogInfo(HEADER4);

	LogMessage("MMDVMHost-%s is starting", VERSION);
	LogMessage("Built %s %s (GitID #%.7s)", __TIME__, __DATE__, gitversion);

	readParams();

	ret = createModem();
	if (!ret)
		return 1;

	if (m_conf.getUMPEnabled()) {
		std::string port = m_conf.getUMPPort();

		LogInfo("Universal MMDVM Peripheral");
		LogInfo("    Port: %s", port.c_str());

		m_ump = new CUMP(port);
		bool ret = m_ump->open();
		if (!ret) {
			delete m_ump;
			m_ump = NULL;
		}
	}

	createDisplay();

	if (m_dstarEnabled && m_conf.getDStarNetworkEnabled()) {
		ret = createDStarNetwork();
		if (!ret)
			return 1;
	}

	if (m_dmrEnabled && m_conf.getDMRNetworkEnabled()) {
		ret = createDMRNetwork();
		if (!ret)
			return 1;
	}

	if (m_ysfEnabled && m_conf.getFusionNetworkEnabled()) {
		ret = createYSFNetwork();
		if (!ret)
			return 1;
	}

	if (m_p25Enabled && m_conf.getP25NetworkEnabled()) {
		ret = createP25Network();
		if (!ret)
			return 1;
	}

	if (m_conf.getCWIdEnabled()) {
		unsigned int time = m_conf.getCWIdTime();
		m_cwCallsign      = m_conf.getCWIdCallsign();

		LogInfo("CW Id Parameters");
		LogInfo("    Time: %u mins", time);
		LogInfo("    Callsign: %s", m_cwCallsign.c_str());

		m_cwIdTime = time * 60U;

		m_cwIdTimer.setTimeout(m_cwIdTime / 4U);
		m_cwIdTimer.start();
	}

	// For all modes we handle RSSI
	std::string rssiMappingFile = m_conf.getModemRSSIMappingFile();

	CRSSIInterpolator* rssi = new CRSSIInterpolator;
	if (!rssiMappingFile.empty()) {
		LogInfo("RSSI");
		LogInfo("    Mapping File: %s", rssiMappingFile.c_str());
		rssi->load(rssiMappingFile);
	}

	// For DMR and P25 we try to map IDs to callsigns
	if (m_dmrEnabled || m_p25Enabled) {
		std::string lookupFile  = m_conf.getDMRIdLookupFile();
		unsigned int reloadTime = m_conf.getDMRIdLookupTime();

		LogInfo("DMR Id Lookups");
		LogInfo("    File: %s", lookupFile.length() > 0U ? lookupFile.c_str() : "None");
		if (reloadTime > 0U)
			LogInfo("    Reload: %u hours", reloadTime);

		m_lookup = new CDMRLookup(lookupFile, reloadTime);
		m_lookup->read();
	}

	CStopWatch stopWatch;
	stopWatch.start();

	CDStarControl* dstar = NULL;
	if (m_dstarEnabled) {
		std::string module                 = m_conf.getDStarModule();
		bool selfOnly                      = m_conf.getDStarSelfOnly();
		std::vector<std::string> blackList = m_conf.getDStarBlackList();
		bool ackReply                      = m_conf.getDStarAckReply();
		unsigned int ackTime               = m_conf.getDStarAckTime();
		bool errorReply                    = m_conf.getDStarErrorReply();
		bool remoteGateway                 = m_conf.getDStarRemoteGateway();
		m_dstarRFModeHang                  = m_conf.getDStarModeHang();

		LogInfo("D-Star RF Parameters");
		LogInfo("    Module: %s", module.c_str());
		LogInfo("    Self Only: %s", selfOnly ? "yes" : "no");
		LogInfo("    Ack Reply: %s", ackReply ? "yes" : "no");
		LogInfo("    Ack Time: %ums", ackTime);
		LogInfo("    Error Reply: %s", errorReply ? "yes" : "no");
		LogInfo("    Remote Gateway: %s", remoteGateway ? "yes" : "no");
		LogInfo("    Mode Hang: %us", m_dstarRFModeHang);

		if (blackList.size() > 0U)
			LogInfo("    Black List: %u", blackList.size());

		dstar = new CDStarControl(m_callsign, module, selfOnly, ackReply, ackTime, errorReply, blackList, m_dstarNetwork, m_display, m_timeout, m_duplex, remoteGateway, rssi);
	}

	CTimer dmrBeaconIntervalTimer(1000U);
	CTimer dmrBeaconDurationTimer(1000U);

	CDMRControl* dmr = NULL;
	if (m_dmrEnabled) {
		unsigned int id             = m_conf.getDMRId();
		unsigned int colorCode      = m_conf.getDMRColorCode();
		bool selfOnly               = m_conf.getDMRSelfOnly();
		bool embeddedLCOnly         = m_conf.getDMREmbeddedLCOnly();
		bool dumpTAData             = m_conf.getDMRDumpTAData();
		std::vector<unsigned int> prefixes  = m_conf.getDMRPrefixes();
		std::vector<unsigned int> blackList = m_conf.getDMRBlackList();
		std::vector<unsigned int> whiteList = m_conf.getDMRWhiteList();
		std::vector<unsigned int> slot1TGWhiteList = m_conf.getDMRSlot1TGWhiteList();
		std::vector<unsigned int> slot2TGWhiteList = m_conf.getDMRSlot2TGWhiteList();
		unsigned int callHang       = m_conf.getDMRCallHang();
		unsigned int txHang         = m_conf.getDMRTXHang();
		unsigned int jitter         = m_conf.getDMRNetworkJitter();
		m_dmrRFModeHang             = m_conf.getDMRModeHang();
		bool dmrBeacons             = m_conf.getDMRBeacons();

		if (txHang > m_dmrRFModeHang)
			txHang = m_dmrRFModeHang;

		if (m_conf.getDMRNetworkEnabled()) {
			if (txHang > m_dmrNetModeHang)
				txHang = m_dmrNetModeHang;
		}

		if (callHang > txHang)
			callHang = txHang;

		LogInfo("DMR RF Parameters");
		LogInfo("    Id: %u", id);
		LogInfo("    Color Code: %u", colorCode);
		LogInfo("    Self Only: %s", selfOnly ? "yes" : "no");
		LogInfo("    Embedded LC Only: %s", embeddedLCOnly ? "yes" : "no");
		LogInfo("    Dump Talker Alias Data: %s", dumpTAData ? "yes" : "no");
		LogInfo("    Prefixes: %u", prefixes.size());
		
		if (blackList.size() > 0U)
			LogInfo("    Source ID Black List: %u", blackList.size());
		if (whiteList.size() > 0U)
			LogInfo("    Source ID White List: %u", whiteList.size());
		if (slot1TGWhiteList.size() > 0U)
			LogInfo("    Slot 1 TG White List: %u", slot1TGWhiteList.size());
		if (slot2TGWhiteList.size() > 0U)
			LogInfo("    Slot 2 TG White List: %u", slot2TGWhiteList.size());

		LogInfo("    Call Hang: %us", callHang);
		LogInfo("    TX Hang: %us", txHang);
		LogInfo("    Mode Hang: %us", m_dmrRFModeHang);

		if (dmrBeacons) {
			unsigned int dmrBeaconInterval = m_conf.getDMRBeaconInterval();
			unsigned int dmrBeaconDuration = m_conf.getDMRBeaconDuration();

			LogInfo("    DMR Roaming Beacon Interval: %us", dmrBeaconInterval);
			LogInfo("    DMR Roaming Beacon Duration: %us", dmrBeaconDuration);

			dmrBeaconDurationTimer.setTimeout(dmrBeaconDuration);

			dmrBeaconIntervalTimer.setTimeout(dmrBeaconInterval);
			dmrBeaconIntervalTimer.start();
		}

		dmr = new CDMRControl(id, colorCode, callHang, selfOnly, embeddedLCOnly, dumpTAData, prefixes, blackList, whiteList, slot1TGWhiteList, slot2TGWhiteList, m_timeout, m_modem, m_dmrNetwork, m_display, m_duplex, m_lookup, rssi, jitter);

		m_dmrTXTimer.setTimeout(txHang);
	}

	CYSFControl* ysf = NULL;
	if (m_ysfEnabled) {
		bool lowDeviation  = m_conf.getFusionLowDeviation();
		bool remoteGateway = m_conf.getFusionRemoteGateway();
		bool selfOnly      = m_conf.getFusionSelfOnly();
		bool sqlEnabled    = m_conf.getFusionSQLEnabled();
		unsigned char sql  = m_conf.getFusionSQL();
		m_ysfRFModeHang    = m_conf.getFusionModeHang();

		LogInfo("YSF RF Parameters");
		LogInfo("    Low Deviation: %s", lowDeviation ? "yes" : "no");
		LogInfo("    Remote Gateway: %s", remoteGateway ? "yes" : "no");
		LogInfo("    Self Only: %s", selfOnly ? "yes" : "no");
		LogInfo("    DSQ: %s", sqlEnabled ? "yes" : "no");
		if (sqlEnabled)
			LogInfo("    DSQ Value: %u", sql);
		LogInfo("    Mode Hang: %us", m_ysfRFModeHang);

		ysf = new CYSFControl(m_callsign, selfOnly, m_ysfNetwork, m_display, m_timeout, m_duplex, lowDeviation, remoteGateway, rssi);
		ysf->setSQL(sqlEnabled, sql);
	}

	CP25Control* p25 = NULL;
	if (m_p25Enabled) {
		unsigned int id    = m_conf.getP25Id();
		unsigned int nac   = m_conf.getP25NAC();
		bool uidOverride   = m_conf.getP25OverrideUID();
		bool selfOnly      = m_conf.getP25SelfOnly();
		bool remoteGateway = m_conf.getP25RemoteGateway();
		m_p25RFModeHang    = m_conf.getP25ModeHang();

		LogInfo("P25 RF Parameters");
		LogInfo("    Id: %u", id);
		LogInfo("    NAC: $%03X", nac);
		LogInfo("    UID Override: %s", uidOverride ? "yes" : "no");
		LogInfo("    Self Only: %s", selfOnly ? "yes" : "no");
		LogInfo("    Remote Gateway: %s", remoteGateway ? "yes" : "no");
		LogInfo("    Mode Hang: %us", m_p25RFModeHang);

		p25 = new CP25Control(nac, id, selfOnly, uidOverride, m_p25Network, m_display, m_timeout, m_duplex, m_lookup, remoteGateway, rssi);
	}

	setMode(MODE_IDLE);

	LogMessage("MMDVMHost-%s is running", VERSION);

	while (!m_killed) {
		bool lockout1 = m_modem->hasLockout();
		bool lockout2 = false;
		if (m_ump != NULL)
			lockout2 = m_ump->getLockout();
		if ((lockout1 || lockout2) && m_mode != MODE_LOCKOUT)
			setMode(MODE_LOCKOUT);
		else if ((!lockout1 && !lockout2) && m_mode == MODE_LOCKOUT)
			setMode(MODE_IDLE);

		bool error = m_modem->hasError();
		if (error && m_mode != MODE_ERROR)
			setMode(MODE_ERROR);
		else if (!error && m_mode == MODE_ERROR)
			setMode(MODE_IDLE);

		if (m_ump != NULL) {
			bool tx = m_modem->hasTX();
			m_ump->setTX(tx);
			bool cd = m_modem->hasCD();
			m_ump->setCD(cd);
		}

		unsigned char data[200U];
		unsigned int len;
		bool ret;

		len = m_modem->readDStarData(data);
		if (dstar != NULL && len > 0U) {
			if (m_mode == MODE_IDLE) {
				bool ret = dstar->writeModem(data, len);
				if (ret) {
					m_modeTimer.setTimeout(m_dstarRFModeHang);
					setMode(MODE_DSTAR);
				}
			} else if (m_mode == MODE_DSTAR) {
				dstar->writeModem(data, len);
				m_modeTimer.start();
			} else if (m_mode != MODE_LOCKOUT) {
				LogWarning("D-Star modem data received when in mode %u", m_mode);
			}
		}

		len = m_modem->readDMRData1(data);
		if (dmr != NULL && len > 0U) {
			if (m_mode == MODE_IDLE) {
				if (m_duplex) {
					bool ret = dmr->processWakeup(data);
					if (ret) {
						m_modeTimer.setTimeout(m_dmrRFModeHang);
						setMode(MODE_DMR);
						dmrBeaconDurationTimer.stop();
					}
				} else {
					m_modeTimer.setTimeout(m_dmrRFModeHang);
					setMode(MODE_DMR);
					dmr->writeModemSlot1(data, len);
					dmrBeaconDurationTimer.stop();
				}
			} else if (m_mode == MODE_DMR) {
				if (m_duplex && !m_modem->hasTX()) {
					bool ret = dmr->processWakeup(data);
					if (ret) {
						m_modem->writeDMRStart(true);
						m_dmrTXTimer.start();
					}
				} else {
					bool ret = dmr->writeModemSlot1(data, len);
					if (ret) {
						dmrBeaconDurationTimer.stop();
						m_modeTimer.start();
						if (m_duplex)
							m_dmrTXTimer.start();
					}
				}
			} else if (m_mode != MODE_LOCKOUT) {
				LogWarning("DMR modem data received when in mode %u", m_mode);
			}
		}

		len = m_modem->readDMRData2(data);
		if (dmr != NULL && len > 0U) {
			if (m_mode == MODE_IDLE) {
				if (m_duplex) {
					bool ret = dmr->processWakeup(data);
					if (ret) {
						m_modeTimer.setTimeout(m_dmrRFModeHang);
						setMode(MODE_DMR);
						dmrBeaconDurationTimer.stop();
					}
				} else {
					m_modeTimer.setTimeout(m_dmrRFModeHang);
					setMode(MODE_DMR);
					dmr->writeModemSlot2(data, len);
					dmrBeaconDurationTimer.stop();
				}
			} else if (m_mode == MODE_DMR) {
				if (m_duplex && !m_modem->hasTX()) {
					bool ret = dmr->processWakeup(data);
					if (ret) {
						m_modem->writeDMRStart(true);
						m_dmrTXTimer.start();
					}
				} else {
					bool ret = dmr->writeModemSlot2(data, len);
					if (ret) {
						dmrBeaconDurationTimer.stop();
						m_modeTimer.start();
						if (m_duplex)
							m_dmrTXTimer.start();
					}
				}
			} else if (m_mode != MODE_LOCKOUT) {
				LogWarning("DMR modem data received when in mode %u", m_mode);
			}
		}

		len = m_modem->readYSFData(data);
		if (ysf != NULL && len > 0U) {
			if (m_mode == MODE_IDLE) {
				bool ret = ysf->writeModem(data, len);
				if (ret) {
					m_modeTimer.setTimeout(m_ysfRFModeHang);
					setMode(MODE_YSF);
				}
			} else if (m_mode == MODE_YSF) {
				ysf->writeModem(data, len);
				m_modeTimer.start();
			} else if (m_mode != MODE_LOCKOUT) {
				LogWarning("System Fusion modem data received when in mode %u", m_mode);
			}
		}

		len = m_modem->readP25Data(data);
		if (p25 != NULL && len > 0U) {
			if (m_mode == MODE_IDLE) {
				bool ret = p25->writeModem(data, len);
				if (ret) {
					m_modeTimer.setTimeout(m_p25RFModeHang);
					setMode(MODE_P25);
				}
			} else if (m_mode == MODE_P25) {
				p25->writeModem(data, len);
				m_modeTimer.start();
			} else if (m_mode != MODE_LOCKOUT) {
				LogWarning("P25 modem data received when in mode %u", m_mode);
			}
		}

		if (m_modeTimer.isRunning() && m_modeTimer.hasExpired())
			setMode(MODE_IDLE);

		if (dstar != NULL) {
			ret = m_modem->hasDStarSpace();
			if (ret) {
				len = dstar->readModem(data);
				if (len > 0U) {
					if (m_mode == MODE_IDLE) {
						m_modeTimer.setTimeout(m_dstarNetModeHang);
						setMode(MODE_DSTAR);
					}
					if (m_mode == MODE_DSTAR) {
						m_modem->writeDStarData(data, len);
						m_modeTimer.start();
					} else if (m_mode != MODE_LOCKOUT) {
						LogWarning("D-Star data received when in mode %u", m_mode);
					}
				}
			}
		}

		if (dmr != NULL) {
			ret = m_modem->hasDMRSpace1();
			if (ret) {
				len = dmr->readModemSlot1(data);
				if (len > 0U) {
					if (m_mode == MODE_IDLE) {
						m_modeTimer.setTimeout(m_dmrNetModeHang);
						setMode(MODE_DMR);
					}
					if (m_mode == MODE_DMR) {
						if (m_duplex) {
							m_modem->writeDMRStart(true);
							m_dmrTXTimer.start();
						}
						m_modem->writeDMRData1(data, len);
						dmrBeaconDurationTimer.stop();
						m_modeTimer.start();
					} else if (m_mode != MODE_LOCKOUT) {
						LogWarning("DMR data received when in mode %u", m_mode);
					}
				}
			}

			ret = m_modem->hasDMRSpace2();
			if (ret) {
				len = dmr->readModemSlot2(data);
				if (len > 0U) {
					if (m_mode == MODE_IDLE) {
						m_modeTimer.setTimeout(m_dmrNetModeHang);
						setMode(MODE_DMR);
					}
					if (m_mode == MODE_DMR) {
						if (m_duplex) {
							m_modem->writeDMRStart(true);
							m_dmrTXTimer.start();
						}
						m_modem->writeDMRData2(data, len);
						dmrBeaconDurationTimer.stop();
						m_modeTimer.start();
					} else if (m_mode != MODE_LOCKOUT) {
						LogWarning("DMR data received when in mode %u", m_mode);
					}
				}
			}
		}

		if (ysf != NULL) {
			ret = m_modem->hasYSFSpace();
			if (ret) {
				len = ysf->readModem(data);
				if (len > 0U) {
					if (m_mode == MODE_IDLE) {
						m_modeTimer.setTimeout(m_ysfNetModeHang);
						setMode(MODE_YSF);
					}
					if (m_mode == MODE_YSF) {
						m_modem->writeYSFData(data, len);
						m_modeTimer.start();
					} else if (m_mode != MODE_LOCKOUT) {
						LogWarning("System Fusion data received when in mode %u", m_mode);
					}
				}
			}
		}

		if (p25 != NULL) {
			ret = m_modem->hasP25Space();
			if (ret) {
				len = p25->readModem(data);
				if (len > 0U) {
					if (m_mode == MODE_IDLE) {
						m_modeTimer.setTimeout(m_p25NetModeHang);
						setMode(MODE_P25);
					}
					if (m_mode == MODE_P25) {
						m_modem->writeP25Data(data, len);
						m_modeTimer.start();
					} else if (m_mode != MODE_LOCKOUT) {
						LogWarning("P25 data received when in mode %u", m_mode);
					}
				}
			}
		}

		unsigned int ms = stopWatch.elapsed();
		stopWatch.start();

		m_display->clock(ms);

		m_modem->clock(ms);
		m_modeTimer.clock(ms);

		if (dstar != NULL)
			dstar->clock();
		if (dmr != NULL)
			dmr->clock();
		if (ysf != NULL)
			ysf->clock(ms);
		if (p25 != NULL)
			p25->clock(ms);

		if (m_dstarNetwork != NULL)
			m_dstarNetwork->clock(ms);
		if (m_dmrNetwork != NULL)
			m_dmrNetwork->clock(ms);
		if (m_ysfNetwork != NULL)
			m_ysfNetwork->clock(ms);
		if (m_p25Network != NULL)
			m_p25Network->clock(ms);

		m_cwIdTimer.clock(ms);
		if (m_cwIdTimer.isRunning() && m_cwIdTimer.hasExpired()) {
			if (m_mode == MODE_IDLE && !m_modem->hasTX()){
				LogDebug("sending CW ID");
				m_display->writeCW();
				m_modem->sendCWId(m_cwCallsign);

				m_cwIdTimer.setTimeout(m_cwIdTime);
				m_cwIdTimer.start();
			}
		}

		dmrBeaconIntervalTimer.clock(ms);
		if (dmrBeaconIntervalTimer.isRunning() && dmrBeaconIntervalTimer.hasExpired()) {
			if (m_mode == MODE_IDLE && !m_modem->hasTX()) {
				setMode(MODE_DMR);
				dmrBeaconIntervalTimer.start();
				dmrBeaconDurationTimer.start();
			}
		}

		dmrBeaconDurationTimer.clock(ms);
		if (dmrBeaconDurationTimer.isRunning() && dmrBeaconDurationTimer.hasExpired()) {
			setMode(MODE_IDLE);
			dmrBeaconDurationTimer.stop();
		}

		m_dmrTXTimer.clock(ms);
		if (m_dmrTXTimer.isRunning() && m_dmrTXTimer.hasExpired()) {
			m_modem->writeDMRStart(false);
			m_dmrTXTimer.stop();
		}

		if (m_ump != NULL)
			m_ump->clock(ms);

		if (ms < 5U)
			CThread::sleep(5U);
	}

	setMode(MODE_IDLE);

	m_modem->close();
	delete m_modem;

	m_display->close();
	delete m_display;

	if (m_ump != NULL) {
		m_ump->close();
		delete m_ump;
	}

	if (m_lookup != NULL)
		m_lookup->stop();

	if (m_dstarNetwork != NULL) {
		m_dstarNetwork->close();
		delete m_dstarNetwork;
	}

	if (m_dmrNetwork != NULL) {
		m_dmrNetwork->close();
		delete m_dmrNetwork;
	}

	if (m_ysfNetwork != NULL) {
		m_ysfNetwork->close();
		delete m_ysfNetwork;
	}

	if (m_p25Network != NULL) {
		m_p25Network->close();
		delete m_p25Network;
	}

	delete dstar;
	delete dmr;
	delete ysf;
	delete p25;

	return 0;
}

bool CMMDVMHost::createModem()
{
	std::string port          = m_conf.getModemPort();
	bool rxInvert             = m_conf.getModemRXInvert();
	bool txInvert             = m_conf.getModemTXInvert();
	bool pttInvert            = m_conf.getModemPTTInvert();
	unsigned int txDelay      = m_conf.getModemTXDelay();
	unsigned int dmrDelay     = m_conf.getModemDMRDelay();
	float rxLevel             = m_conf.getModemRXLevel();
	float cwIdTXLevel         = m_conf.getModemCWIdTXLevel();
	float dstarTXLevel        = m_conf.getModemDStarTXLevel();
	float dmrTXLevel          = m_conf.getModemDMRTXLevel();
	float ysfTXLevel          = m_conf.getModemYSFTXLevel();
	float p25TXLevel          = m_conf.getModemP25TXLevel();
	bool trace                = m_conf.getModemTrace();
	bool debug                = m_conf.getModemDebug();
	unsigned int colorCode    = m_conf.getDMRColorCode();
	bool lowDeviation         = m_conf.getFusionLowDeviation();
	unsigned int rxFrequency  = m_conf.getRXFrequency();
	unsigned int txFrequency  = m_conf.getTXFrequency();
	int rxOffset              = m_conf.getModemRXOffset();
	int txOffset              = m_conf.getModemTXOffset();
	int rxDCOffset            = m_conf.getModemRXDCOffset();
	int txDCOffset            = m_conf.getModemTXDCOffset();
	float rfLevel             = m_conf.getModemRFLevel();

	LogInfo("Modem Parameters");
	LogInfo("    Port: %s", port.c_str());
	LogInfo("    RX Invert: %s", rxInvert ? "yes" : "no");
	LogInfo("    TX Invert: %s", txInvert ? "yes" : "no");
	LogInfo("    PTT Invert: %s", pttInvert ? "yes" : "no");
	LogInfo("    TX Delay: %ums", txDelay);
	LogInfo("    RX Offset: %dHz", rxOffset);
	LogInfo("    TX Offset: %dHz", txOffset);
	LogInfo("    RX DC Offset: %d", rxDCOffset);
	LogInfo("    TX DC Offset: %d", txDCOffset);
	LogInfo("    RF Level: %.1f%%", rfLevel);
	LogInfo("    DMR Delay: %u (%.1fms)", dmrDelay, float(dmrDelay) * 0.0416666F);
	LogInfo("    RX Level: %.1f%%", rxLevel);
	LogInfo("    CW Id TX Level: %.1f%%", cwIdTXLevel);
	LogInfo("    D-Star TX Level: %.1f%%", dstarTXLevel);
	LogInfo("    DMR TX Level: %.1f%%", dmrTXLevel);
	LogInfo("    YSF TX Level: %.1f%%", ysfTXLevel);
	LogInfo("    P25 TX Level: %.1f%%", p25TXLevel);
	LogInfo("    RX Frequency: %uHz (%uHz)", rxFrequency, rxFrequency + rxOffset);
	LogInfo("    TX Frequency: %uHz (%uHz)", txFrequency, txFrequency + txOffset);

	m_modem = new CModem(port, m_duplex, rxInvert, txInvert, pttInvert, txDelay, dmrDelay, trace, debug);
	m_modem->setModeParams(m_dstarEnabled, m_dmrEnabled, m_ysfEnabled, m_p25Enabled);
	m_modem->setLevels(rxLevel, cwIdTXLevel, dstarTXLevel, dmrTXLevel, ysfTXLevel, p25TXLevel);
	m_modem->setRFParams(rxFrequency, rxOffset, txFrequency, txOffset, txDCOffset, rxDCOffset, rfLevel);
	m_modem->setDMRParams(colorCode);
	m_modem->setYSFParams(lowDeviation);

	bool ret = m_modem->open();
	if (!ret) {
		delete m_modem;
		m_modem = NULL;
		return false;
	}

	return true;
}

bool CMMDVMHost::createDStarNetwork()
{
	std::string gatewayAddress = m_conf.getDStarGatewayAddress();
	unsigned int gatewayPort   = m_conf.getDStarGatewayPort();
	unsigned int localPort     = m_conf.getDStarLocalPort();
	bool debug                 = m_conf.getDStarNetworkDebug();
	m_dstarNetModeHang         = m_conf.getDStarNetworkModeHang();

	LogInfo("D-Star Network Parameters");
	LogInfo("    Gateway Address: %s", gatewayAddress.c_str());
	LogInfo("    Gateway Port: %u", gatewayPort);
	LogInfo("    Local Port: %u", localPort);
	LogInfo("    Mode Hang: %us", m_dstarNetModeHang);

	m_dstarNetwork = new CDStarNetwork(gatewayAddress, gatewayPort, localPort, m_duplex, VERSION, debug);

	bool ret = m_dstarNetwork->open();
	if (!ret) {
		delete m_dstarNetwork;
		m_dstarNetwork = NULL;
		return false;
	}

	m_dstarNetwork->enable(true);

	return true;
}

bool CMMDVMHost::createDMRNetwork()
{
	std::string address  = m_conf.getDMRNetworkAddress();
	unsigned int port    = m_conf.getDMRNetworkPort();
	unsigned int local   = m_conf.getDMRNetworkLocal();
	unsigned int id      = m_conf.getDMRId();
	std::string password = m_conf.getDMRNetworkPassword();
	bool debug           = m_conf.getDMRNetworkDebug();
	unsigned int jitter  = m_conf.getDMRNetworkJitter();
	bool slot1           = m_conf.getDMRNetworkSlot1();
	bool slot2           = m_conf.getDMRNetworkSlot2();
	HW_TYPE hwType       = m_modem->getHWType();
	m_dmrNetModeHang     = m_conf.getDMRNetworkModeHang();

	LogInfo("DMR Network Parameters");
	LogInfo("    Address: %s", address.c_str());
	LogInfo("    Port: %u", port);
	if (local > 0U)
		LogInfo("    Local: %u", local);
	else
		LogInfo("    Local: random");
	LogInfo("    Jitter: %ums", jitter);
	LogInfo("    Slot 1: %s", slot1 ? "enabled" : "disabled");
	LogInfo("    Slot 2: %s", slot2 ? "enabled" : "disabled");
	LogInfo("    Mode Hang: %us", m_dmrNetModeHang);

	m_dmrNetwork = new CDMRNetwork(address, port, local, id, password, m_duplex, VERSION, debug, slot1, slot2, hwType);

	std::string options = m_conf.getDMRNetworkOptions();
	if (!options.empty()) {
		LogInfo("    Options: %s", options.c_str());
		m_dmrNetwork->setOptions(options);
	}

	unsigned int rxFrequency = m_conf.getRXFrequency();
	unsigned int txFrequency = m_conf.getTXFrequency();
	unsigned int power       = m_conf.getPower();
	unsigned int colorCode   = m_conf.getDMRColorCode();
	float latitude           = m_conf.getLatitude();
	float longitude          = m_conf.getLongitude();
	int height               = m_conf.getHeight();
	std::string location     = m_conf.getLocation();
	std::string description  = m_conf.getDescription();
	std::string url          = m_conf.getURL();

	LogInfo("Info Parameters");
	LogInfo("    Callsign: %s", m_callsign.c_str());
	LogInfo("    RX Frequency: %uHz", rxFrequency);
	LogInfo("    TX Frequency: %uHz", txFrequency);
	LogInfo("    Power: %uW", power);
	LogInfo("    Latitude: %fdeg N", latitude);
	LogInfo("    Longitude: %fdeg E", longitude);
	LogInfo("    Height: %um", height);
	LogInfo("    Location: \"%s\"", location.c_str());
	LogInfo("    Description: \"%s\"", description.c_str());
	LogInfo("    URL: \"%s\"", url.c_str());

	m_dmrNetwork->setConfig(m_callsign, rxFrequency, txFrequency, power, colorCode, latitude, longitude, height, location, description, url);

	bool ret = m_dmrNetwork->open();
	if (!ret) {
		delete m_dmrNetwork;
		m_dmrNetwork = NULL;
		return false;
	}

	m_dmrNetwork->enable(true);

	return true;
}

bool CMMDVMHost::createYSFNetwork()
{
	std::string myAddress  = m_conf.getFusionNetworkMyAddress();
	unsigned int myPort    = m_conf.getFusionNetworkMyPort();
	std::string gatewayAddress = m_conf.getFusionNetworkGatewayAddress();
	unsigned int gatewayPort   = m_conf.getFusionNetworkGatewayPort();
	m_ysfNetModeHang       = m_conf.getFusionNetworkModeHang();
	bool debug             = m_conf.getFusionNetworkDebug();

	LogInfo("System Fusion Network Parameters");
	LogInfo("    Local Address: %s", myAddress.c_str());
	LogInfo("    Local Port: %u", myPort);
	LogInfo("    Gateway Address: %s", gatewayAddress.c_str());
	LogInfo("    Gateway Port: %u", gatewayPort);
	LogInfo("    Mode Hang: %us", m_ysfNetModeHang);

	m_ysfNetwork = new CYSFNetwork(myAddress, myPort, gatewayAddress, gatewayPort, m_callsign, debug);

	bool ret = m_ysfNetwork->open();
	if (!ret) {
		delete m_ysfNetwork;
		m_ysfNetwork = NULL;
		return false;
	}

	m_ysfNetwork->enable(true);

	return true;
}

bool CMMDVMHost::createP25Network()
{
	std::string gatewayAddress = m_conf.getP25GatewayAddress();
	unsigned int gatewayPort   = m_conf.getP25GatewayPort();
	unsigned int localPort     = m_conf.getP25LocalPort();
	m_p25NetModeHang           = m_conf.getP25NetworkModeHang();
	bool debug                 = m_conf.getP25NetworkDebug();

	LogInfo("P25 Network Parameters");
	LogInfo("    Gateway Address: %s", gatewayAddress.c_str());
	LogInfo("    Gateway Port: %u", gatewayPort);
	LogInfo("    Local Port: %u", localPort);
	LogInfo("    Mode Hang: %us", m_p25NetModeHang);

	m_p25Network = new CP25Network(gatewayAddress, gatewayPort, localPort, debug);

	bool ret = m_p25Network->open();
	if (!ret) {
		delete m_p25Network;
		m_p25Network = NULL;
		return false;
	}

	m_p25Network->enable(true);

	return true;
}

void CMMDVMHost::readParams()
{
	m_dstarEnabled = m_conf.getDStarEnabled();
	m_dmrEnabled   = m_conf.getDMREnabled();
	m_ysfEnabled   = m_conf.getFusionEnabled();
	m_p25Enabled   = m_conf.getP25Enabled();
	m_duplex       = m_conf.getDuplex();
	m_callsign     = m_conf.getCallsign();
	m_id           = m_conf.getId();
	m_timeout      = m_conf.getTimeout();

	LogInfo("General Parameters");
	LogInfo("    Callsign: %s", m_callsign.c_str());
	LogInfo("    Id: %u", m_id);
	LogInfo("    Duplex: %s", m_duplex ? "yes" : "no");
	LogInfo("    Timeout: %us", m_timeout);
	LogInfo("    D-Star: %s", m_dstarEnabled ? "enabled" : "disabled");
	LogInfo("    DMR: %s", m_dmrEnabled ? "enabled" : "disabled");
	LogInfo("    YSF: %s", m_ysfEnabled ? "enabled" : "disabled");
	LogInfo("    P25: %s", m_p25Enabled ? "enabled" : "disabled");
}

void CMMDVMHost::createDisplay()
{
	std::string type   = m_conf.getDisplay();
	unsigned int dmrid = m_conf.getDMRId();

	LogInfo("Display Parameters");
	LogInfo("    Type: %s", type.c_str());

	if (type == "TFT Serial") {
		std::string port        = m_conf.getTFTSerialPort();
		unsigned int brightness = m_conf.getTFTSerialBrightness();

		LogInfo("    Port: %s", port.c_str());
		LogInfo("    Brightness: %u", brightness);

		ISerialPort* serial = NULL;
		if (port == "modem")
			serial = new CModemSerialPort(m_modem);
		else
			serial = new CSerialController(port, SERIAL_9600);

		m_display = new CTFTSerial(m_callsign, dmrid, serial, brightness);
	} else if (type == "Nextion") {
		std::string port            = m_conf.getNextionPort();
		unsigned int brightness     = m_conf.getNextionBrightness();
		bool displayClock           = m_conf.getNextionDisplayClock();
		bool utc                    = m_conf.getNextionUTC();
		unsigned int idleBrightness = m_conf.getNextionIdleBrightness();
		unsigned int screenLayout   = m_conf.getNextionScreenLayout();

		LogInfo("    Port: %s", port.c_str());
		LogInfo("    Brightness: %u", brightness);
		LogInfo("    Clock Display: %s", displayClock ? "yes" : "no");
		if (displayClock)
			LogInfo("    Display UTC: %s", utc ? "yes" : "no");
		LogInfo("    Idle Brightness: %u", idleBrightness);

		switch (screenLayout) {
		case 0U:
			LogInfo("    Screen Layout: G4KLX (Default)");
			break;
		case 2U:
			LogInfo("    Screen Layout: ON7LDS");
			break;
		case 3U:
			LogInfo("    Screen Layout: DIY by ON7LDS");
			break;
		case 4U:
			LogInfo("    Screen Layout: DIY by ON7LDS (High speed)");
			break;
		default:
			LogInfo("    Screen Layout: %u (Unknown)", screenLayout);
			break;
		}

		if (port == "modem") {
			ISerialPort* serial = new CModemSerialPort(m_modem);
			m_display = new CNextion(m_callsign, dmrid, serial, brightness, displayClock, utc, idleBrightness, screenLayout);
		} else if (port == "ump") {
			if (m_ump != NULL)
				m_display = new CNextion(m_callsign, dmrid, m_ump, brightness, displayClock, utc, idleBrightness, screenLayout);
		} else {
			SERIAL_SPEED baudrate = SERIAL_9600;
			if (screenLayout==4U)
				baudrate = SERIAL_115200;
			ISerialPort* serial = new CSerialController(port, baudrate);
			m_display = new CNextion(m_callsign, dmrid, serial, brightness, displayClock, utc, idleBrightness, screenLayout);
		}
	} else if (type == "LCDproc") {
		std::string address       = m_conf.getLCDprocAddress();
		unsigned int port         = m_conf.getLCDprocPort();
		unsigned int localPort    = m_conf.getLCDprocLocalPort();
		bool displayClock         = m_conf.getLCDprocDisplayClock();
		bool utc                  = m_conf.getLCDprocUTC();
		bool dimOnIdle            = m_conf.getLCDprocDimOnIdle();

		LogInfo("    Address: %s", address.c_str());
		LogInfo("    Port: %u", port);

		if (localPort == 0 )
			LogInfo("    Local Port: random");
		else
			LogInfo("    Local Port: %u", localPort);

		LogInfo("    Dim Display on Idle: %s", dimOnIdle ? "yes" : "no");
		LogInfo("    Clock Display: %s", displayClock ? "yes" : "no");

		if (displayClock)
			LogInfo("    Display UTC: %s", utc ? "yes" : "no");

		m_display = new CLCDproc(address.c_str(), port, localPort, m_callsign, dmrid, displayClock, utc, m_duplex, dimOnIdle);
#if defined(HD44780)
	} else if (type == "HD44780") {
		unsigned int rows              = m_conf.getHD44780Rows();
		unsigned int columns           = m_conf.getHD44780Columns();
		std::vector<unsigned int> pins = m_conf.getHD44780Pins();
		unsigned int i2cAddress        = m_conf.getHD44780i2cAddress();
		bool pwm                       = m_conf.getHD44780PWM();
		unsigned int pwmPin            = m_conf.getHD44780PWMPin();
		unsigned int pwmBright         = m_conf.getHD44780PWMBright();
		unsigned int pwmDim            = m_conf.getHD44780PWMDim();
		bool displayClock              = m_conf.getHD44780DisplayClock();
		bool utc                       = m_conf.getHD44780UTC();

		if (pins.size() == 6U) {
			LogInfo("    Rows: %u", rows);
			LogInfo("    Columns: %u", columns);

#if defined(ADAFRUIT_DISPLAY) || defined(PCF8574_DISPLAY)
			LogInfo("    Device Address: %#x", i2cAddress);
#else
			LogInfo("    Pins: %u,%u,%u,%u,%u,%u", pins.at(0U), pins.at(1U), pins.at(2U), pins.at(3U), pins.at(4U), pins.at(5U));
#endif

			LogInfo("    PWM Backlight: %s", pwm ? "yes" : "no");
			if (pwm) {
				LogInfo("    PWM Pin: %u", pwmPin);
				LogInfo("    PWM Bright: %u", pwmBright);
				LogInfo("    PWM Dim: %u", pwmDim);
			}

			LogInfo("    Clock Display: %s", displayClock ? "yes" : "no");
			if (displayClock)
				LogInfo("    Display UTC: %s", utc ? "yes" : "no");

			m_display = new CHD44780(rows, columns, m_callsign, dmrid, pins, i2cAddress, pwm, pwmPin, pwmBright, pwmDim, displayClock, utc, m_duplex);
		}
#endif

#if defined(OLED)
	} else if (type == "OLED") {
        unsigned char type       = m_conf.getOLEDType();
        unsigned char brightness = m_conf.getOLEDBrightness();
        bool          invert     = m_conf.getOLEDInvert();
		bool          scroll     = m_conf.getOLEDScroll();
		m_display = new COLED(type, brightness, invert, scroll);
#endif
	} else {
		m_display = new CNullDisplay;
	}

	if (m_display == NULL) {
		LogWarning("No valid display found, disabling");
		m_display = new CNullDisplay;
		return;
	}

	bool ret = m_display->open();
	if (!ret) {
		delete m_display;
		m_display = new CNullDisplay;
	}
}

void CMMDVMHost::setMode(unsigned char mode)
{
	assert(m_modem != NULL);
	assert(m_display != NULL);

	switch (mode) {
	case MODE_DSTAR:
		if (m_dmrNetwork != NULL)
			m_dmrNetwork->enable(false);
		if (m_ysfNetwork != NULL)
			m_ysfNetwork->enable(false);
		if (m_p25Network != NULL)
			m_p25Network->enable(false);
		m_modem->setMode(MODE_DSTAR);
		if (m_ump != NULL)
			m_ump->setMode(MODE_DSTAR);
		m_mode = MODE_DSTAR;
		m_modeTimer.start();
		m_cwIdTimer.stop();
		break;

	case MODE_DMR:
		if (m_dstarNetwork != NULL)
			m_dstarNetwork->enable(false);
		if (m_ysfNetwork != NULL)
			m_ysfNetwork->enable(false);
		if (m_p25Network != NULL)
			m_p25Network->enable(false);
		m_modem->setMode(MODE_DMR);
		if (m_ump != NULL)
			m_ump->setMode(MODE_DMR);
		if (m_duplex) {
			m_modem->writeDMRStart(true);
			m_dmrTXTimer.start();
		}
		m_mode = MODE_DMR;
		m_modeTimer.start();
		m_cwIdTimer.stop();
		break;

	case MODE_YSF:
		if (m_dstarNetwork != NULL)
			m_dstarNetwork->enable(false);
		if (m_dmrNetwork != NULL)
			m_dmrNetwork->enable(false);
		if (m_p25Network != NULL)
			m_p25Network->enable(false);
		m_modem->setMode(MODE_YSF);
		if (m_ump != NULL)
			m_ump->setMode(MODE_YSF);
		m_mode = MODE_YSF;
		m_modeTimer.start();
		m_cwIdTimer.stop();
		break;

	case MODE_P25:
		if (m_dstarNetwork != NULL)
			m_dstarNetwork->enable(false);
		if (m_dmrNetwork != NULL)
			m_dmrNetwork->enable(false);
		if (m_ysfNetwork != NULL)
			m_ysfNetwork->enable(false);
		m_modem->setMode(MODE_P25);
		if (m_ump != NULL)
			m_ump->setMode(MODE_P25);
		m_mode = MODE_P25;
		m_modeTimer.start();
		m_cwIdTimer.stop();
		break;

	case MODE_LOCKOUT:
		LogMessage("Mode set to Lockout");
		if (m_dstarNetwork != NULL)
			m_dstarNetwork->enable(false);
		if (m_dmrNetwork != NULL)
			m_dmrNetwork->enable(false);
		if (m_ysfNetwork != NULL)
			m_ysfNetwork->enable(false);
		if (m_p25Network != NULL)
			m_p25Network->enable(false);
		if (m_mode == MODE_DMR && m_duplex && m_modem->hasTX()) {
			m_modem->writeDMRStart(false);
			m_dmrTXTimer.stop();
		}
		m_modem->setMode(MODE_IDLE);
		if (m_ump != NULL)
			m_ump->setMode(MODE_IDLE);
		m_display->setLockout();
		m_mode = MODE_LOCKOUT;
		m_modeTimer.stop();
		m_cwIdTimer.stop();
		break;

	case MODE_ERROR:
		LogMessage("Mode set to Error");
		if (m_dstarNetwork != NULL)
			m_dstarNetwork->enable(false);
		if (m_dmrNetwork != NULL)
			m_dmrNetwork->enable(false);
		if (m_ysfNetwork != NULL)
			m_ysfNetwork->enable(false);
		if (m_p25Network != NULL)
			m_p25Network->enable(false);
		if (m_mode == MODE_DMR && m_duplex && m_modem->hasTX()) {
			m_modem->writeDMRStart(false);
			m_dmrTXTimer.stop();
		}
		if (m_ump != NULL)
			m_ump->setMode(MODE_IDLE);
		m_display->setError("MODEM");
		m_mode = MODE_ERROR;
		m_modeTimer.stop();
		m_cwIdTimer.stop();
		break;

	default:
		if (m_dstarNetwork != NULL)
			m_dstarNetwork->enable(true);
		if (m_dmrNetwork != NULL)
			m_dmrNetwork->enable(true);
		if (m_ysfNetwork != NULL)
			m_ysfNetwork->enable(true);
		if (m_p25Network != NULL)
			m_p25Network->enable(true);
		if (m_mode == MODE_DMR && m_duplex && m_modem->hasTX()) {
			m_modem->writeDMRStart(false);
			m_dmrTXTimer.stop();
		}
		m_modem->setMode(MODE_IDLE);
		if (m_ump != NULL)
			m_ump->setMode(MODE_IDLE);
		if (m_mode == MODE_ERROR) {
			m_modem->sendCWId(m_callsign);
			m_cwIdTimer.setTimeout(m_cwIdTime);
			m_cwIdTimer.start();
		} else {
			m_cwIdTimer.setTimeout(m_cwIdTime / 4U);
			m_cwIdTimer.start();
		}
		m_display->setIdle();
		m_mode = MODE_IDLE;
		m_modeTimer.stop();
		break;
	}
}