// Copyright (c) Charles J. Cliffe // SPDX-License-Identifier: GPL-2.0+ #include "AppConfig.h" #include "CubicSDR.h" #include DeviceConfig::DeviceConfig() { ppm.store(0); offset.store(0); agcMode.store(true); sampleRate.store(0); } DeviceConfig::DeviceConfig(std::string deviceId_in) : DeviceConfig() { deviceId = deviceId_in; } void DeviceConfig::setPPM(int ppm_in) { ppm.store(ppm_in); } int DeviceConfig::getPPM() { return ppm.load(); } void DeviceConfig::setOffset(long long offset_in) { offset.store(offset_in); } long long DeviceConfig::getOffset() { return offset.load(); } void DeviceConfig::setSampleRate(long sampleRate_in) { sampleRate.store(sampleRate_in); } long DeviceConfig::getSampleRate() { return sampleRate.load(); } void DeviceConfig::setAntennaName(const std::string& name) { antennaName = name; } const std::string& DeviceConfig::getAntennaName() { return antennaName; } void DeviceConfig::setAGCMode(bool agcMode_in) { agcMode.store(agcMode_in); } bool DeviceConfig::getAGCMode() { return agcMode.load(); } void DeviceConfig::setDeviceId(std::string deviceId_in) { std::lock_guard < std::mutex > lock(busy_lock); deviceId = deviceId_in; } std::string DeviceConfig::getDeviceId() { std::string tmp; std::lock_guard < std::mutex > lock(busy_lock); tmp = deviceId; return tmp; } void DeviceConfig::setDeviceName(std::string deviceName_in) { std::lock_guard < std::mutex > lock(busy_lock); deviceName = deviceName_in; } std::string DeviceConfig::getDeviceName() { std::string tmp; std::lock_guard < std::mutex > lock(busy_lock); tmp = deviceName.empty()?deviceId:deviceName; return tmp; } void DeviceConfig::save(DataNode *node) { std::lock_guard < std::mutex > lock(busy_lock); *node->newChild("id") = deviceId; *node->newChild("name") = deviceName; *node->newChild("ppm") = ppm.load(); *node->newChild("offset") = offset.load(); *node->newChild("sample_rate") = sampleRate.load(); *node->newChild("agc_mode") = agcMode.load()?1:0; if (!antennaName.empty()) { *node->newChild("antenna") = antennaName; } if (!streamOpts.empty()) { DataNode *streamOptsNode = node->newChild("streamOpts"); for (ConfigSettings::const_iterator opt_i = streamOpts.begin(); opt_i != streamOpts.end(); opt_i++) { *streamOptsNode->newChild(opt_i->first.c_str()) = opt_i->second; } } if (!settings.empty()) { DataNode *settingsNode = node->newChild("settings"); for (ConfigSettings::const_iterator set_i = settings.begin(); set_i != settings.end(); set_i++) { *settingsNode->newChild(set_i->first.c_str()) = set_i->second; } } if (!rigIF.empty()) { DataNode *rigIFs = node->newChild("rig_ifs"); for (std::map::const_iterator rigIF_i = rigIF.begin(); rigIF_i != rigIF.end(); rigIF_i++) { DataNode *ifNode = rigIFs->newChild("rig_if"); *ifNode->newChild("model") = rigIF_i->first; *ifNode->newChild("sdr_if") = rigIF_i->second; } } if (!gains.empty()) { DataNode *gainsNode = node->newChild("gains"); for (ConfigGains::const_iterator gain_i = gains.begin(); gain_i != gains.end(); gain_i++) { DataNode *gainNode = gainsNode->newChild("gain"); *gainNode->newChild("id") = gain_i->first; *gainNode->newChild("value") = gain_i->second; } } } void DeviceConfig::load(DataNode *node) { std::lock_guard < std::mutex > lock(busy_lock); if (node->hasAnother("name")) { deviceName = node->getNext("name")->element()->toString(); } if (node->hasAnother("ppm")) { DataNode *ppm_node = node->getNext("ppm"); int ppmValue = 0; ppm_node->element()->get(ppmValue); setPPM(ppmValue); } if (node->hasAnother("offset")) { DataNode *offset_node = node->getNext("offset"); long long offsetValue = 0; offset_node->element()->get(offsetValue); setOffset(offsetValue); } if (node->hasAnother("agc_mode")) { DataNode *agc_node = node->getNext("agc_mode"); int agcModeValue = 0; agc_node->element()->get(agcModeValue); setAGCMode(agcModeValue != 0); } if (node->hasAnother("sample_rate")) { DataNode *sample_rate_node = node->getNext("sample_rate"); long sampleRateValue = 0; sample_rate_node->element()->get(sampleRateValue); setSampleRate(sampleRateValue); } if (node->hasAnother("antenna")) { DataNode *antenna_node = node->getNext("antenna"); std::string antennaNameValue; antenna_node->element()->get(antennaNameValue); setAntennaName(antennaNameValue); } if (node->hasAnother("streamOpts")) { DataNode *streamOptsNode = node->getNext("streamOpts"); for (int i = 0, iMax = streamOptsNode->numChildren(); ichild(i); std::string keyName = streamOptNode->getName(); std::string strSettingValue = streamOptNode->element()->toString(); if (!keyName.empty()) { setStreamOpt(keyName, strSettingValue); } } } if (node->hasAnother("settings")) { DataNode *settingsNode = node->getNext("settings"); for (int i = 0, iMax = settingsNode->numChildren(); ichild(i); std::string keyName = settingNode->getName(); std::string strSettingValue = settingNode->element()->toString(); if (!keyName.empty()) { setSetting(keyName, strSettingValue); } } } if (node->hasAnother("rig_ifs")) { DataNode *rigIFNodes = node->getNext("rig_ifs"); while (rigIFNodes->hasAnother("rig_if")) { DataNode *rigIFNode = rigIFNodes->getNext("rig_if"); if (rigIFNode->hasAnother("model") && rigIFNode->hasAnother("sdr_if")) { int load_model; long long load_freq = 0; rigIFNode->getNext("model")->element()->get(load_model); rigIFNode->getNext("sdr_if")->element()->get(load_freq); rigIF[load_model] = load_freq; } } } if (node->hasAnother("gains")) { DataNode *gainsNode = node->getNext("gains"); while (gainsNode->hasAnother("gain")) { DataNode *gainNode = gainsNode->getNext("gain"); std::string keyName; float fltSettingValue = 0; gainNode->getNext("id")->element()->get(keyName); gainNode->getNext("value")->element()->get(fltSettingValue); if (!keyName.empty() && !(fltSettingValue!=fltSettingValue)) { setGain(keyName, fltSettingValue); } } } } void DeviceConfig::setStreamOpts(ConfigSettings opts) { streamOpts = opts; } ConfigSettings DeviceConfig::getStreamOpts() { return streamOpts; } void DeviceConfig::setStreamOpt(const std::string& key, std::string value) { streamOpts[key] = value; } std::string DeviceConfig::getStreamOpt(const std::string& key, std::string defaultValue) { if (streamOpts.find(key) == streamOpts.end()) { return defaultValue; } return streamOpts[key]; } void DeviceConfig::setSettings(ConfigSettings settings_in) { settings = settings_in; } void DeviceConfig::setSetting(const std::string& key, std::string value) { settings[key] = value; } std::string DeviceConfig::getSetting(const std::string& key, std::string defaultValue) { if (settings.find(key) == settings.end()) { return defaultValue; } return settings[key]; } ConfigSettings DeviceConfig::getSettings() { return settings; } void DeviceConfig::setGains(ConfigGains gains_in) { gains = gains_in; } ConfigGains DeviceConfig::getGains() { return gains; } void DeviceConfig::setGain(const std::string& key, float value) { gains[key] = value; } float DeviceConfig::getGain(const std::string& key, float defaultValue) { if (gains.find(key) != gains.end()) { return gains[key]; } return defaultValue; } void DeviceConfig::setRigIF(int rigType, long long freq) { rigIF[rigType] = freq; } long long DeviceConfig::getRigIF(int rigType) { if (rigIF.find(rigType) != rigIF.end()) { return rigIF[rigType]; } return 0; } AppConfig::AppConfig() { winX.store(0); winY.store(0); winW.store(0); winH.store(0); winMax.store(false); showTips.store(true); perfMode.store(PERF_NORMAL); themeId.store(0); fontScale.store(0); snap.store(1); centerFreq.store(100000000); waterfallLinesPerSec.store(DEFAULT_WATERFALL_LPS); spectrumAvgSpeed.store(0.65f); dbOffset.store(0); modemPropsCollapsed.store(false); mainSplit = -1; visSplit = -1; bookmarkSplit = 200; #ifdef CUBICSDR_DEFAULT_HIDE_BOOKMARKS bookmarksVisible.store(false); #else bookmarksVisible.store(true); #endif #ifdef USE_HAMLIB rigEnabled.store(false); rigModel.store(1); rigRate.store(57600); rigPort = "/dev/ttyUSB0"; rigControlMode.store(true); rigFollowMode.store(true); #endif } DeviceConfig *AppConfig::getDevice(const std::string& deviceId) { if (deviceConfig.find(deviceId) == deviceConfig.end()) { deviceConfig[deviceId] = new DeviceConfig(); } DeviceConfig *conf = deviceConfig[deviceId]; conf->setDeviceId(deviceId); return conf; } std::string AppConfig::getConfigDir() { std::string dataDir = wxStandardPaths::Get().GetUserDataDir().ToStdString(); bool mkStatus = false; if (!wxDir::Exists(dataDir)) { mkStatus = wxDir::Make(dataDir); } else { mkStatus = true; } if (!mkStatus) { std::cout << "Warning, unable to initialize user data directory." << std::endl; } return dataDir; } void AppConfig::setWindow(wxPoint winXY, wxSize winWH) { winX.store(winXY.x); winY.store(winXY.y); winW.store(winWH.x); winH.store(winWH.y); } void AppConfig::setWindowMaximized(bool max) { winMax.store(max); } bool AppConfig::getWindowMaximized() { return winMax.load(); } void AppConfig::setModemPropsCollapsed(bool collapse) { modemPropsCollapsed.store(collapse); } bool AppConfig::getModemPropsCollapsed() { return modemPropsCollapsed.load(); } void AppConfig::setShowTips(bool show) { showTips.store(show); } bool AppConfig::getShowTips() { return showTips.load(); } void AppConfig::setPerfMode(PerfModeEnum show) { perfMode.store(show); } AppConfig::PerfModeEnum AppConfig::getPerfMode() { return perfMode.load(); } wxRect *AppConfig::getWindow() { wxRect *r = nullptr; if (winH.load() && winW.load()) { r = new wxRect(winX.load(),winY.load(),winW.load(),winH.load()); } return r; } void AppConfig::setTheme(int themeId_in) { themeId.store(themeId_in); } int AppConfig::getTheme() { return themeId.load(); } void AppConfig::setFontScale(int fontScale_in) { fontScale.store(fontScale_in); } int AppConfig::getFontScale() { return fontScale.load(); } void AppConfig::setSnap(long long snapVal) { this->snap.store(snapVal); } long long AppConfig::getSnap() { return snap.load(); } void AppConfig::setCenterFreq(long long freqVal) { centerFreq.store(freqVal); } long long AppConfig::getCenterFreq() { return centerFreq.load(); } void AppConfig::setWaterfallLinesPerSec(int lps) { waterfallLinesPerSec.store(lps); } int AppConfig::getWaterfallLinesPerSec() { return waterfallLinesPerSec.load(); } void AppConfig::setSpectrumAvgSpeed(float avgSpeed) { spectrumAvgSpeed.store(avgSpeed); } float AppConfig::getSpectrumAvgSpeed() { return spectrumAvgSpeed.load(); } void AppConfig::setDBOffset(int offset) { this->dbOffset.store(offset); } int AppConfig::getDBOffset() { return dbOffset.load(); } void AppConfig::setManualDevices(std::vector manuals) { manualDevices = manuals; } std::vector AppConfig::getManualDevices() { return manualDevices; } void AppConfig::setMainSplit(float value) { mainSplit.store(value); } float AppConfig::getMainSplit() { return mainSplit.load(); } void AppConfig::setVisSplit(float value) { visSplit.store(value); } float AppConfig::getVisSplit() { return visSplit.load(); } void AppConfig::setBookmarkSplit(float value) { bookmarkSplit.store(value); } float AppConfig::getBookmarkSplit() { return bookmarkSplit.load(); } void AppConfig::setBookmarksVisible(bool state) { bookmarksVisible.store(state); } bool AppConfig::getBookmarksVisible() { return bookmarksVisible.load(); } void AppConfig::setRecordingPath(std::string recPath) { recordingPath = recPath; } std::string AppConfig::getRecordingPath() { return recordingPath; } bool AppConfig::verifyRecordingPath() { string recPathStr = wxGetApp().getConfig()->getRecordingPath(); if (recPathStr.empty()) { wxMessageBox( wxT("Recording path is not set. Please use 'Set Recording Path' from the 'Recording' Menu."), wxT("Recording Path Error"), wxICON_INFORMATION); return false; } wxFileName recPath(recPathStr); if (!recPath.Exists() || !recPath.IsDirWritable()) { wxMessageBox( wxT("Recording path does not exist or is not writable. Please use 'Set Recording Path' from the 'Recording' Menu."), wxT("Recording Path Error"), wxICON_INFORMATION); return false; } return true; } void AppConfig::setRecordingSquelchOption(int enumChoice) { recordingSquelchOption = enumChoice; } int AppConfig::getRecordingSquelchOption() const { return recordingSquelchOption; } void AppConfig::setRecordingFileTimeLimit(int nbSeconds) { recordingFileTimeLimitSeconds = nbSeconds; } int AppConfig::getRecordingFileTimeLimit() const { return recordingFileTimeLimitSeconds; } void AppConfig::setConfigName(std::string configName_in) { configName = configName_in; } std::string AppConfig::getConfigFileName(bool ignoreName) { std::string cfgFileDir = getConfigDir(); wxFileName cfgFile; if (configName.length() && !ignoreName) { std::string tempFn("config-"); tempFn.append(configName); tempFn.append(".xml"); cfgFile = wxFileName(cfgFileDir, tempFn); } else { cfgFile = wxFileName(cfgFileDir, "config.xml"); } std::string cfgFileName = cfgFile.GetFullPath(wxPATH_NATIVE).ToStdString(); return cfgFileName; } bool AppConfig::save() { DataTree cfg; cfg.rootNode()->setName("cubicsdr_config"); if (winW.load() && winH.load()) { DataNode *window_node = cfg.rootNode()->newChild("window"); *window_node->newChild("x") = winX.load(); *window_node->newChild("y") = winY.load(); *window_node->newChild("w") = winW.load(); *window_node->newChild("h") = winH.load(); *window_node->newChild("max") = winMax.load(); *window_node->newChild("tips") = showTips.load(); *window_node->newChild("perf_mode") = (int)perfMode.load(); *window_node->newChild("theme") = themeId.load(); *window_node->newChild("font_scale") = fontScale.load(); *window_node->newChild("snap") = snap.load(); *window_node->newChild("center_freq") = centerFreq.load(); *window_node->newChild("waterfall_lps") = waterfallLinesPerSec.load(); *window_node->newChild("spectrum_avg") = spectrumAvgSpeed.load(); *window_node->newChild("modemprops_collapsed") = modemPropsCollapsed.load(); *window_node->newChild("db_offset") = dbOffset.load(); *window_node->newChild("main_split") = mainSplit.load(); *window_node->newChild("vis_split") = visSplit.load(); *window_node->newChild("bookmark_split") = bookmarkSplit.load(); *window_node->newChild("bookmark_visible") = bookmarksVisible.load(); } //Recording settings: DataNode *rec_node = cfg.rootNode()->newChild("recording"); *rec_node->newChild("path") = recordingPath; *rec_node->newChild("squelch") = recordingSquelchOption; *rec_node->newChild("file_time_limit") = recordingFileTimeLimitSeconds; DataNode *devices_node = cfg.rootNode()->newChild("devices"); std::map::iterator device_config_i; for (device_config_i = deviceConfig.begin(); device_config_i != deviceConfig.end(); device_config_i++) { DataNode *device_node = devices_node->newChild("device"); device_config_i->second->save(device_node); } if (!manualDevices.empty()) { DataNode *manual_node = cfg.rootNode()->newChild("manual_devices"); for (const auto & manualDevice : manualDevices) { DataNode *rig_node = manual_node->newChild("device"); *rig_node->newChild("factory") = manualDevice.factory; *rig_node->newChild("params") = manualDevice.params; } } #ifdef USE_HAMLIB DataNode *rig_node = cfg.rootNode()->newChild("rig"); *rig_node->newChild("enabled") = rigEnabled.load()?1:0; *rig_node->newChild("model") = rigModel.load(); *rig_node->newChild("rate") = rigRate.load(); *rig_node->newChild("port") = rigPort; *rig_node->newChild("control") = rigControlMode.load()?1:0; *rig_node->newChild("follow") = rigFollowMode.load()?1:0; *rig_node->newChild("center_lock") = rigCenterLock.load()?1:0; *rig_node->newChild("follow_modem") = rigFollowModem.load()?1:0; #endif std::string cfgFileName = getConfigFileName(); if (!cfg.SaveToFileXML(cfgFileName)) { std::cout << "Error saving :: configuration file '" << cfgFileName << "' is not writable!" << std::endl; return false; } return true; } bool AppConfig::load() { DataTree cfg; std::string cfgFileDir = getConfigDir(); std::string cfgFileName = getConfigFileName(); wxFileName cfgFile = wxFileName(cfgFileName); if (!cfgFile.Exists()) { if (configName.length()) { wxFileName baseConfig = wxFileName(getConfigFileName(true)); if (baseConfig.Exists()) { std::string baseConfigFileName = baseConfig.GetFullPath(wxPATH_NATIVE).ToStdString(); std::cout << "Creating new configuration file '" << cfgFileName << "' by copying '" << baseConfigFileName << "'.."; wxCopyFile(baseConfigFileName, cfgFileName); if (!cfgFile.Exists()) { std::cout << "failed." << std::endl; return true; } std::cout << "ok." << std::endl; } else { return true; } } else { return true; } } if (cfgFile.IsFileReadable()) { std::cout << "Loading:: configuration file '" << cfgFileName << "'" << std::endl; cfg.LoadFromFileXML(cfgFileName); } else { std::cout << "Error loading:: configuration file '" << cfgFileName << "' is not readable!" << std::endl; return false; } if (cfg.rootNode()->hasAnother("window")) { int x = 0 ,y = 0 ,w = 0 ,h = 0; int max = 0 ,tips = 0 ,perf_mode = 0 ,mpc = 0; DataNode *win_node = cfg.rootNode()->getNext("window"); if (win_node->hasAnother("w") && win_node->hasAnother("h") && win_node->hasAnother("x") && win_node->hasAnother("y")) { win_node->getNext("x")->element()->get(x); win_node->getNext("y")->element()->get(y); win_node->getNext("w")->element()->get(w); win_node->getNext("h")->element()->get(h); winX.store(x); winY.store(y); winW.store(w); winH.store(h); } if (win_node->hasAnother("max")) { win_node->getNext("max")->element()->get(max); winMax.store(max != 0); } if (win_node->hasAnother("tips")) { win_node->getNext("tips")->element()->get(tips); showTips.store(tips != 0); } // default: perfMode.store(PERF_NORMAL); if (win_node->hasAnother("perf_mode")) { win_node->getNext("perf_mode")->element()->get(perf_mode); if (perf_mode == (int)PERF_LOW) { perfMode.store(PERF_LOW); } else if (perf_mode == (int)PERF_HIGH) { perfMode.store(PERF_HIGH); } } if (win_node->hasAnother("theme")) { int theme = 0; win_node->getNext("theme")->element()->get(theme); themeId.store(theme); } if (win_node->hasAnother("font_scale")) { int fscale = 0; win_node->getNext("font_scale")->element()->get(fscale); fontScale.store(fscale); } if (win_node->hasAnother("snap")) { long long snapVal = 0; win_node->getNext("snap")->element()->get(snapVal); snap.store(snapVal); } if (win_node->hasAnother("center_freq")) { long long freqVal = 0; win_node->getNext("center_freq")->element()->get(freqVal); centerFreq.store(freqVal); } if (win_node->hasAnother("waterfall_lps")) { int lpsVal = 30; win_node->getNext("waterfall_lps")->element()->get(lpsVal); waterfallLinesPerSec.store(lpsVal); } if (win_node->hasAnother("spectrum_avg")) { float avgVal; win_node->getNext("spectrum_avg")->element()->get(avgVal); spectrumAvgSpeed.store(avgVal); } if (win_node->hasAnother("modemprops_collapsed")) { win_node->getNext("modemprops_collapsed")->element()->get(mpc); modemPropsCollapsed.store(mpc != 0); } if (win_node->hasAnother("db_offset")) { DataNode *offset_node = win_node->getNext("db_offset"); int offsetValue = 0; offset_node->element()->get(offsetValue); setDBOffset(offsetValue); } if (win_node->hasAnother("main_split")) { float gVal; win_node->getNext("main_split")->element()->get(gVal); mainSplit.store(gVal); } if (win_node->hasAnother("vis_split")) { float gVal; win_node->getNext("vis_split")->element()->get(gVal); visSplit.store(gVal); } if (win_node->hasAnother("bookmark_split")) { float gVal; win_node->getNext("bookmark_split")->element()->get(gVal); bookmarkSplit.store(gVal); } if (win_node->hasAnother("bookmark_visible")) { int bVal; win_node->getNext("bookmark_visible")->element()->get(bVal); bookmarksVisible.store(bVal); } } //Recording settings: if (cfg.rootNode()->hasAnother("recording")) { DataNode *rec_node = cfg.rootNode()->getNext("recording"); if (rec_node->hasAnother("path")) { DataNode *rec_path = rec_node->getNext("path"); recordingPath = rec_path->element()->toString(); } if (rec_node->hasAnother("squelch")) { DataNode *rec_squelch = rec_node->getNext("squelch"); rec_squelch->element()->get(recordingSquelchOption); } if (rec_node->hasAnother("file_time_limit")) { DataNode *rec_file_time_limit = rec_node->getNext("file_time_limit"); rec_file_time_limit->element()->get(recordingFileTimeLimitSeconds); } } if (cfg.rootNode()->hasAnother("devices")) { DataNode *devices_node = cfg.rootNode()->getNext("devices"); while (devices_node->hasAnother("device")) { DataNode *device_node = devices_node->getNext("device"); if (device_node->hasAnother("id")) { std::string deviceId = device_node->getNext("id")->element()->toString(); getDevice(deviceId)->load(device_node); } } } if (cfg.rootNode()->hasAnother("manual_devices")) { DataNode *manuals_node = cfg.rootNode()->getNext("manual_devices"); while (manuals_node->hasAnother("device")) { DataNode *manual_node = manuals_node->getNext("device"); if (manual_node->hasAnother("factory") && manual_node->hasAnother("params")) { SDRManualDef mdef; mdef.factory = manual_node->getNext("factory")->element()->toString(); mdef.params = manual_node->getNext("params")->element()->toString(); manualDevices.push_back(mdef); } } } #ifdef USE_HAMLIB if (cfg.rootNode()->hasAnother("rig")) { DataNode *rig_node = cfg.rootNode()->getNext("rig"); if (rig_node->hasAnother("enabled")) { int loadEnabled; rig_node->getNext("enabled")->element()->get(loadEnabled); rigEnabled.store(loadEnabled != 0); } if (rig_node->hasAnother("model")) { int loadModel; rig_node->getNext("model")->element()->get(loadModel); rigModel.store(loadModel?loadModel:1); } if (rig_node->hasAnother("rate")) { int loadRate; rig_node->getNext("rate")->element()->get(loadRate); rigRate.store(loadRate?loadRate:57600); } if (rig_node->hasAnother("port")) { rigPort = rig_node->getNext("port")->element()->toString(); } if (rig_node->hasAnother("control")) { int loadControl; rig_node->getNext("control")->element()->get(loadControl); rigControlMode.store(loadControl != 0); } if (rig_node->hasAnother("follow")) { int loadFollow; rig_node->getNext("follow")->element()->get(loadFollow); rigFollowMode.store(loadFollow != 0); } if (rig_node->hasAnother("center_lock")) { int loadCenterLock; rig_node->getNext("center_lock")->element()->get(loadCenterLock); rigCenterLock.store(loadCenterLock != 0); } if (rig_node->hasAnother("follow_modem")) { int loadFollow; rig_node->getNext("follow_modem")->element()->get(loadFollow); rigFollowModem.store(loadFollow != 0); } } #endif return true; } bool AppConfig::reset() { return true; } #if USE_HAMLIB int AppConfig::getRigModel() { return rigModel.load(); } void AppConfig::setRigModel(int rigModel_in) { rigModel.store(rigModel_in); } int AppConfig::getRigRate() { return rigRate.load(); } void AppConfig::setRigRate(int rigRate_in) { rigRate.store(rigRate_in); } std::string AppConfig::getRigPort() { return rigPort; } void AppConfig::setRigPort(std::string rigPort_in) { rigPort = rigPort_in; } void AppConfig::setRigControlMode(bool cMode) { rigControlMode.store(cMode); } bool AppConfig::getRigControlMode() { return rigControlMode.load(); } void AppConfig::setRigFollowMode(bool fMode) { rigFollowMode.store(fMode); } bool AppConfig::getRigFollowMode() { return rigFollowMode.load(); } void AppConfig::setRigCenterLock(bool cLock) { rigCenterLock.store(cLock); } bool AppConfig::getRigCenterLock() { return rigCenterLock.load(); } void AppConfig::setRigFollowModem(bool fMode) { rigFollowModem.store(fMode); } bool AppConfig::getRigFollowModem() { return rigFollowModem.load(); } void AppConfig::setRigEnabled(bool enabled) { rigEnabled.store(enabled); } bool AppConfig::getRigEnabled() { return rigEnabled.load(); } #endif