/**************************************************************************** * * (c) 2009-2016 QGROUNDCONTROL PROJECT * * QGroundControl is licensed according to the terms in the file * COPYING.md in the root of the source code directory. * ****************************************************************************/ #include #include #include #include #ifndef NO_SERIAL_LINK #include "QGCSerialPortInfo.h" #endif #include "LinkManager.h" #include "QGCApplication.h" #include "UDPLink.h" #include "TCPLink.h" #include "SettingsManager.h" #include "PositionManager.h" #ifdef QGC_ENABLE_BLUETOOTH #include "BluetoothLink.h" #endif #ifndef __mobile__ #include "GPSManager.h" #endif QGC_LOGGING_CATEGORY(LinkManagerLog, "LinkManagerLog") QGC_LOGGING_CATEGORY(LinkManagerVerboseLog, "LinkManagerVerboseLog") const char* LinkManager::_defaultUPDLinkName = "UDP Link (AutoConnect)"; const int LinkManager::_autoconnectUpdateTimerMSecs = 1000; #ifdef Q_OS_WIN // Have to manually let the bootloader go by on Windows to get a working connect const int LinkManager::_autoconnectConnectDelayMSecs = 6000; #else const int LinkManager::_autoconnectConnectDelayMSecs = 1000; #endif LinkManager::LinkManager(QGCApplication* app, QGCToolbox* toolbox) : QGCTool(app, toolbox) , _configUpdateSuspended(false) , _configurationsLoaded(false) , _connectionsSuspended(false) , _mavlinkChannelsUsedBitMask(1) // We never use channel 0 to avoid sequence numbering problems , _autoConnectSettings(NULL) , _mavlinkProtocol(NULL) , _nmeaPort(NULL) { qmlRegisterUncreatableType ("QGroundControl", 1, 0, "LinkManager", "Reference only"); qmlRegisterUncreatableType ("QGroundControl", 1, 0, "LinkConfiguration", "Reference only"); qmlRegisterUncreatableType ("QGroundControl", 1, 0, "LinkInterface", "Reference only"); #ifndef NO_SERIAL_LINK _activeLinkCheckTimer.setInterval(_activeLinkCheckTimeoutMSecs); _activeLinkCheckTimer.setSingleShot(false); connect(&_activeLinkCheckTimer, &QTimer::timeout, this, &LinkManager::_activeLinkCheck); #endif } LinkManager::~LinkManager() { delete _nmeaPort; } void LinkManager::setToolbox(QGCToolbox *toolbox) { QGCTool::setToolbox(toolbox); _autoConnectSettings = toolbox->settingsManager()->autoConnectSettings(); _mavlinkProtocol = _toolbox->mavlinkProtocol(); connect(&_portListTimer, &QTimer::timeout, this, &LinkManager::_updateAutoConnectLinks); _portListTimer.start(_autoconnectUpdateTimerMSecs); // timeout must be long enough to get past bootloader on second pass } // This should only be used by Qml code void LinkManager::createConnectedLink(LinkConfiguration* config) { for(int i = 0; i < _sharedConfigurations.count(); i++) { SharedLinkConfigurationPointer& sharedConf = _sharedConfigurations[i]; if (sharedConf->name() == config->name()) createConnectedLink(sharedConf); } } LinkInterface* LinkManager::createConnectedLink(SharedLinkConfigurationPointer& config) { if (!config) { qWarning() << "LinkManager::createConnectedLink called with NULL config"; return NULL; } LinkInterface* pLink = NULL; switch(config->type()) { #ifndef NO_SERIAL_LINK case LinkConfiguration::TypeSerial: { SerialConfiguration* serialConfig = dynamic_cast(config.data()); if (serialConfig) { pLink = new SerialLink(config); if (serialConfig->usbDirect()) { _activeLinkCheckList.append((SerialLink*)pLink); if (!_activeLinkCheckTimer.isActive()) { _activeLinkCheckTimer.start(); } } } } break; #endif case LinkConfiguration::TypeUdp: pLink = new UDPLink(config); break; case LinkConfiguration::TypeTcp: pLink = new TCPLink(config); break; #ifdef QGC_ENABLE_BLUETOOTH case LinkConfiguration::TypeBluetooth: pLink = new BluetoothLink(config); break; #endif #ifndef __mobile__ case LinkConfiguration::TypeLogReplay: pLink = new LogReplayLink(config); break; #endif #ifdef QT_DEBUG case LinkConfiguration::TypeMock: pLink = new MockLink(config); break; #endif case LinkConfiguration::TypeLast: default: break; } if (pLink) { _addLink(pLink); connectLink(pLink); } return pLink; } LinkInterface* LinkManager::createConnectedLink(const QString& name) { if (name.isEmpty()) { qWarning() << "Internal error"; } else { for(int i = 0; i < _sharedConfigurations.count(); i++) { SharedLinkConfigurationPointer& conf = _sharedConfigurations[i]; if (conf->name() == name) { return createConnectedLink(conf); } } } return NULL; } void LinkManager::_addLink(LinkInterface* link) { if (thread() != QThread::currentThread()) { qWarning() << "_deleteLink called from incorrect thread"; return; } if (!link) { return; } if (!containsLink(link)) { int mavlinkChannel = _reserveMavlinkChannel(); if (mavlinkChannel != 0) { link->_setMavlinkChannel(mavlinkChannel); } else { qWarning() << "Ran out of mavlink channels"; return; } _sharedLinks.append(SharedLinkInterfacePointer(link)); emit newLink(link); } connect(link, &LinkInterface::communicationError, _app, &QGCApplication::criticalMessageBoxOnMainThread); connect(link, &LinkInterface::bytesReceived, _mavlinkProtocol, &MAVLinkProtocol::receiveBytes); _mavlinkProtocol->resetMetadataForLink(link); _mavlinkProtocol->setVersion(_mavlinkProtocol->getCurrentVersion()); connect(link, &LinkInterface::connected, this, &LinkManager::_linkConnected); connect(link, &LinkInterface::disconnected, this, &LinkManager::_linkDisconnected); // This connection is queued since it will cloe the link. So we want the link emitter to return otherwise we would // close the link our from under itself. connect(link, &LinkInterface::connectionRemoved, this, &LinkManager::_linkConnectionRemoved, Qt::QueuedConnection); } void LinkManager::disconnectAll(void) { // Walk list in reverse order to preserve indices during delete for (int i=_sharedLinks.count()-1; i>=0; i--) { disconnectLink(_sharedLinks[i].data()); } } bool LinkManager::connectLink(LinkInterface* link) { if (link) { if (_connectionsSuspendedMsg()) { return false; } return link->_connect(); } else { qWarning() << "Internal error"; return false; } } void LinkManager::disconnectLink(LinkInterface* link) { if (!link || !containsLink(link)) { return; } link->_disconnect(); LinkConfiguration* config = link->getLinkConfiguration(); for (int i=0; i<_sharedAutoconnectConfigurations.count(); i++) { if (_sharedAutoconnectConfigurations[i].data() == config) { qCDebug(LinkManagerLog) << "Removing disconnected autoconnect config" << config->name(); _sharedAutoconnectConfigurations.removeAt(i); break; } } _deleteLink(link); } void LinkManager::_deleteLink(LinkInterface* link) { if (thread() != QThread::currentThread()) { qWarning() << "_deleteLink called from incorrect thread"; return; } if (!link) { return; } // Free up the mavlink channel associated with this link _freeMavlinkChannel(link->mavlinkChannel()); for (int i=0; i<_sharedLinks.count(); i++) { if (_sharedLinks[i].data() == link) { _sharedLinks.removeAt(i); break; } } // Emit removal of link emit linkDeleted(link); } SharedLinkInterfacePointer LinkManager::sharedLinkInterfacePointerForLink(LinkInterface* link) { for (int i=0; i<_sharedLinks.count(); i++) { if (_sharedLinks[i].data() == link) { return _sharedLinks[i]; } } qWarning() << "LinkManager::sharedLinkInterfaceForLink returning NULL"; return SharedLinkInterfacePointer(NULL); } /// @brief If all new connections should be suspended a message is displayed to the user and true /// is returned; bool LinkManager::_connectionsSuspendedMsg(void) { if (_connectionsSuspended) { qgcApp()->showMessage(tr("Connect not allowed: %1").arg(_connectionsSuspendedReason)); return true; } else { return false; } } void LinkManager::setConnectionsSuspended(QString reason) { _connectionsSuspended = true; _connectionsSuspendedReason = reason; } void LinkManager::_linkConnected(void) { emit linkConnected((LinkInterface*)sender()); } void LinkManager::_linkDisconnected(void) { emit linkDisconnected((LinkInterface*)sender()); } void LinkManager::_linkConnectionRemoved(LinkInterface* link) { // Link has been removed from system, disconnect it automatically disconnectLink(link); } void LinkManager::suspendConfigurationUpdates(bool suspend) { _configUpdateSuspended = suspend; } void LinkManager::saveLinkConfigurationList() { QSettings settings; settings.remove(LinkConfiguration::settingsRoot()); int trueCount = 0; for (int i = 0; i < _sharedConfigurations.count(); i++) { SharedLinkConfigurationPointer linkConfig = _sharedConfigurations[i]; if (linkConfig) { if (!linkConfig->isDynamic()) { QString root = LinkConfiguration::settingsRoot(); root += QString("/Link%1").arg(trueCount++); settings.setValue(root + "/name", linkConfig->name()); settings.setValue(root + "/type", linkConfig->type()); settings.setValue(root + "/auto", linkConfig->isAutoConnect()); // Have the instance save its own values linkConfig->saveSettings(settings, root); } } else { qWarning() << "Internal error for link configuration in LinkManager"; } } QString root(LinkConfiguration::settingsRoot()); settings.setValue(root + "/count", trueCount); emit linkConfigurationsChanged(); } void LinkManager::loadLinkConfigurationList() { bool linksChanged = false; QSettings settings; // Is the group even there? if(settings.contains(LinkConfiguration::settingsRoot() + "/count")) { // Find out how many configurations we have int count = settings.value(LinkConfiguration::settingsRoot() + "/count").toInt(); for(int i = 0; i < count; i++) { QString root(LinkConfiguration::settingsRoot()); root += QString("/Link%1").arg(i); if(settings.contains(root + "/type")) { int type = settings.value(root + "/type").toInt(); if((LinkConfiguration::LinkType)type < LinkConfiguration::TypeLast) { if(settings.contains(root + "/name")) { QString name = settings.value(root + "/name").toString(); if(!name.isEmpty()) { LinkConfiguration* pLink = NULL; bool autoConnect = settings.value(root + "/auto").toBool(); switch((LinkConfiguration::LinkType)type) { #ifndef NO_SERIAL_LINK case LinkConfiguration::TypeSerial: pLink = (LinkConfiguration*)new SerialConfiguration(name); break; #endif case LinkConfiguration::TypeUdp: pLink = (LinkConfiguration*)new UDPConfiguration(name); break; case LinkConfiguration::TypeTcp: pLink = (LinkConfiguration*)new TCPConfiguration(name); break; #ifdef QGC_ENABLE_BLUETOOTH case LinkConfiguration::TypeBluetooth: pLink = (LinkConfiguration*)new BluetoothConfiguration(name); break; #endif #ifndef __mobile__ case LinkConfiguration::TypeLogReplay: pLink = (LinkConfiguration*)new LogReplayLinkConfiguration(name); break; #endif #ifdef QT_DEBUG case LinkConfiguration::TypeMock: pLink = (LinkConfiguration*)new MockConfiguration(name); break; #endif default: case LinkConfiguration::TypeLast: break; } if(pLink) { //-- Have the instance load its own values pLink->setAutoConnect(autoConnect); pLink->loadSettings(settings, root); addConfiguration(pLink); linksChanged = true; } } else { qWarning() << "Link Configuration" << root << "has an empty name." ; } } else { qWarning() << "Link Configuration" << root << "has no name." ; } } else { qWarning() << "Link Configuration" << root << "an invalid type: " << type; } } else { qWarning() << "Link Configuration" << root << "has no type." ; } } } if(linksChanged) { emit linkConfigurationsChanged(); } // Enable automatic Serial PX4/3DR Radio hunting _configurationsLoaded = true; } #ifndef NO_SERIAL_LINK SerialConfiguration* LinkManager::_autoconnectConfigurationsContainsPort(const QString& portName) { QString searchPort = portName.trimmed(); for (int i=0; i<_sharedAutoconnectConfigurations.count(); i++) { SerialConfiguration* serialConfig = qobject_cast(_sharedAutoconnectConfigurations[i].data()); if (serialConfig) { if (serialConfig->portName() == searchPort) { return serialConfig; } } else { qWarning() << "Internal error"; } } return NULL; } #endif void LinkManager::_updateAutoConnectLinks(void) { if (_connectionsSuspended || qgcApp()->runningUnitTests()) { return; } // Re-add UDP if we need to bool foundUDP = false; for (int i=0; i<_sharedLinks.count(); i++) { LinkConfiguration* linkConfig = _sharedLinks[i]->getLinkConfiguration(); if (linkConfig->type() == LinkConfiguration::TypeUdp && linkConfig->name() == _defaultUPDLinkName) { foundUDP = true; break; } } if (!foundUDP && _autoConnectSettings->autoConnectUDP()->rawValue().toBool()) { qCDebug(LinkManagerLog) << "New auto-connect UDP port added"; // Default UDPConfiguration is set up for autoconnect UDPConfiguration* udpConfig = new UDPConfiguration(_defaultUPDLinkName); udpConfig->setDynamic(true); SharedLinkConfigurationPointer config = addConfiguration(udpConfig); createConnectedLink(config); emit linkConfigurationsChanged(); } #ifndef NO_SERIAL_LINK QStringList currentPorts; QList portList; #ifdef __android__ // Android builds only support a single serial connection. Repeatedly calling availablePorts after that one serial // port is connected leaks file handles due to a bug somewhere in android serial code. In order to work around that // bug after we connect the first serial port we stop probing for additional ports. if (!_sharedAutoconnectConfigurations.count()) { portList = QGCSerialPortInfo::availablePorts(); } #else portList = QGCSerialPortInfo::availablePorts(); #endif // Iterate Comm Ports foreach (QGCSerialPortInfo portInfo, portList) { qCDebug(LinkManagerVerboseLog) << "-----------------------------------------------------"; qCDebug(LinkManagerVerboseLog) << "portName: " << portInfo.portName(); qCDebug(LinkManagerVerboseLog) << "systemLocation: " << portInfo.systemLocation(); qCDebug(LinkManagerVerboseLog) << "description: " << portInfo.description(); qCDebug(LinkManagerVerboseLog) << "manufacturer: " << portInfo.manufacturer(); qCDebug(LinkManagerVerboseLog) << "serialNumber: " << portInfo.serialNumber(); qCDebug(LinkManagerVerboseLog) << "vendorIdentifier: " << portInfo.vendorIdentifier(); qCDebug(LinkManagerVerboseLog) << "productIdentifier: " << portInfo.productIdentifier(); // Save port name currentPorts << portInfo.systemLocation(); QGCSerialPortInfo::BoardType_t boardType; QString boardName; if (portInfo.systemLocation().trimmed() == _autoConnectSettings->autoConnectNmeaPort()->cookedValueString()) { if (portInfo.systemLocation().trimmed() != _nmeaDeviceName) { _nmeaDeviceName = portInfo.systemLocation().trimmed(); qCDebug(LinkManagerLog) << "Configuring nmea port" << _nmeaDeviceName; QSerialPort* newPort = new QSerialPort(portInfo); _nmeaBaud = _autoConnectSettings->autoConnectNmeaBaud()->cookedValue().toUInt(); newPort->setBaudRate(_nmeaBaud); qCDebug(LinkManagerLog) << "Configuring nmea baudrate" << _nmeaBaud; // This will stop polling old device if previously set _toolbox->qgcPositionManager()->setNmeaSourceDevice(newPort); if (_nmeaPort) { delete _nmeaPort; } _nmeaPort = newPort; } else if (_autoConnectSettings->autoConnectNmeaBaud()->cookedValue().toUInt() != _nmeaBaud) { _nmeaBaud = _autoConnectSettings->autoConnectNmeaBaud()->cookedValue().toUInt(); _nmeaPort->setBaudRate(_nmeaBaud); qCDebug(LinkManagerLog) << "Configuring nmea baudrate" << _nmeaBaud; } } else if (portInfo.getBoardInfo(boardType, boardName)) { if (portInfo.isBootloader()) { // Don't connect to bootloader qCDebug(LinkManagerLog) << "Waiting for bootloader to finish" << portInfo.systemLocation(); continue; } if (_autoconnectConfigurationsContainsPort(portInfo.systemLocation()) || _autoConnectRTKPort == portInfo.systemLocation()) { qCDebug(LinkManagerVerboseLog) << "Skipping existing autoconnect" << portInfo.systemLocation(); } else if (!_autoconnectWaitList.contains(portInfo.systemLocation())) { // We don't connect to the port the first time we see it. The ability to correctly detect whether we // are in the bootloader is flaky from a cross-platform standpoint. So by putting it on a wait list // and only connect on the second pass we leave enough time for the board to boot up. qCDebug(LinkManagerLog) << "Waiting for next autoconnect pass" << portInfo.systemLocation(); _autoconnectWaitList[portInfo.systemLocation()] = 1; } else if (++_autoconnectWaitList[portInfo.systemLocation()] * _autoconnectUpdateTimerMSecs > _autoconnectConnectDelayMSecs) { SerialConfiguration* pSerialConfig = NULL; _autoconnectWaitList.remove(portInfo.systemLocation()); switch (boardType) { case QGCSerialPortInfo::BoardTypePixhawk: if (_autoConnectSettings->autoConnectPixhawk()->rawValue().toBool()) { pSerialConfig = new SerialConfiguration(tr("%1 on %2 (AutoConnect)").arg(boardName).arg(portInfo.portName().trimmed())); pSerialConfig->setUsbDirect(true); } break; case QGCSerialPortInfo::BoardTypePX4Flow: if (_autoConnectSettings->autoConnectPX4Flow()->rawValue().toBool()) { pSerialConfig = new SerialConfiguration(tr("%1 on %2 (AutoConnect)").arg(boardName).arg(portInfo.portName().trimmed())); } break; case QGCSerialPortInfo::BoardTypeSiKRadio: if (_autoConnectSettings->autoConnectSiKRadio()->rawValue().toBool()) { pSerialConfig = new SerialConfiguration(tr("%1 on %2 (AutoConnect)").arg(boardName).arg(portInfo.portName().trimmed())); } break; case QGCSerialPortInfo::BoardTypeOpenPilot: if (_autoConnectSettings->autoConnectLibrePilot()->rawValue().toBool()) { pSerialConfig = new SerialConfiguration(tr("%1 on %2 (AutoConnect)").arg(boardName).arg(portInfo.portName().trimmed())); } break; #ifndef __mobile__ case QGCSerialPortInfo::BoardTypeRTKGPS: if (_autoConnectSettings->autoConnectRTKGPS()->rawValue().toBool() && !_toolbox->gpsManager()->connected()) { qCDebug(LinkManagerLog) << "RTK GPS auto-connected" << portInfo.portName().trimmed(); _autoConnectRTKPort = portInfo.systemLocation(); _toolbox->gpsManager()->connectGPS(portInfo.systemLocation()); } break; #endif default: qWarning() << "Internal error"; continue; } if (pSerialConfig) { qCDebug(LinkManagerLog) << "New auto-connect port added: " << pSerialConfig->name() << portInfo.systemLocation(); pSerialConfig->setBaud(boardType == QGCSerialPortInfo::BoardTypeSiKRadio ? 57600 : 115200); pSerialConfig->setDynamic(true); pSerialConfig->setPortName(portInfo.systemLocation()); _sharedAutoconnectConfigurations.append(SharedLinkConfigurationPointer(pSerialConfig)); createConnectedLink(_sharedAutoconnectConfigurations.last()); } } } } #ifndef __android__ // Android builds only support a single serial connection. Repeatedly calling availablePorts after that one serial // port is connected leaks file handles due to a bug somewhere in android serial code. In order to work around that // bug after we connect the first serial port we stop probing for additional ports. The means we must rely on // the port disconnecting itself when the radio is pulled to signal communication list as opposed to automatically // closing the Link. // Now we go through the current configuration list and make sure any dynamic config has gone away QList _confToDelete; for (int i=0; i<_sharedAutoconnectConfigurations.count(); i++) { SerialConfiguration* serialConfig = qobject_cast(_sharedAutoconnectConfigurations[i].data()); if (serialConfig) { if (!currentPorts.contains(serialConfig->portName())) { if (serialConfig->link()) { if (serialConfig->link()->isConnected()) { if (serialConfig->link()->active()) { // We don't remove links which are still connected which have been active with a vehicle on them // even though at this point the cable may have been pulled. Instead we wait for the user to // Disconnect. Once the user disconnects, the link will be removed. continue; } } } _confToDelete.append(serialConfig); } } else { qWarning() << "Internal error"; } } // Now remove all configs that are gone foreach (LinkConfiguration* pDeleteConfig, _confToDelete) { qCDebug(LinkManagerLog) << "Removing unused autoconnect config" << pDeleteConfig->name(); if (pDeleteConfig->link()) { disconnectLink(pDeleteConfig->link()); } for (int i=0; i<_sharedAutoconnectConfigurations.count(); i++) { if (_sharedAutoconnectConfigurations[i].data() == pDeleteConfig) { _sharedAutoconnectConfigurations.removeAt(i); break; } } } // Check for RTK GPS connection gone #if !defined(__mobile__) if (!_autoConnectRTKPort.isEmpty() && !currentPorts.contains(_autoConnectRTKPort)) { qCDebug(LinkManagerLog) << "RTK GPS disconnected" << _autoConnectRTKPort; _toolbox->gpsManager()->disconnectGPS(); _autoConnectRTKPort.clear(); } #endif #endif #endif // NO_SERIAL_LINK } void LinkManager::shutdown(void) { setConnectionsSuspended(tr("Shutdown")); disconnectAll(); } QStringList LinkManager::linkTypeStrings(void) const { //-- Must follow same order as enum LinkType in LinkConfiguration.h static QStringList list; if(!list.size()) { #ifndef NO_SERIAL_LINK list += "Serial"; #endif list += "UDP"; list += "TCP"; #ifdef QGC_ENABLE_BLUETOOTH list += "Bluetooth"; #endif #ifdef QT_DEBUG list += "Mock Link"; #endif #ifndef __mobile__ list += "Log Replay"; #endif if (list.size() != (int)LinkConfiguration::TypeLast) { qWarning() << "Internal error"; } } return list; } void LinkManager::_updateSerialPorts() { _commPortList.clear(); _commPortDisplayList.clear(); #ifndef NO_SERIAL_LINK QList portList = QSerialPortInfo::availablePorts(); foreach (const QSerialPortInfo &info, portList) { QString port = info.systemLocation().trimmed(); _commPortList += port; _commPortDisplayList += SerialConfiguration::cleanPortDisplayname(port); } #endif } QStringList LinkManager::serialPortStrings(void) { if(!_commPortDisplayList.size()) { _updateSerialPorts(); } return _commPortDisplayList; } QStringList LinkManager::serialPorts(void) { if(!_commPortList.size()) { _updateSerialPorts(); } return _commPortList; } QStringList LinkManager::serialBaudRates(void) { #ifdef NO_SERIAL_LINK QStringList foo; return foo; #else return SerialConfiguration::supportedBaudRates(); #endif } bool LinkManager::endConfigurationEditing(LinkConfiguration* config, LinkConfiguration* editedConfig) { if (config && editedConfig) { _fixUnnamed(editedConfig); config->copyFrom(editedConfig); saveLinkConfigurationList(); // Tell link about changes (if any) config->updateSettings(); // Discard temporary duplicate delete editedConfig; } else { qWarning() << "Internal error"; } return true; } bool LinkManager::endCreateConfiguration(LinkConfiguration* config) { if (config) { _fixUnnamed(config); addConfiguration(config); saveLinkConfigurationList(); } else { qWarning() << "Internal error"; } return true; } LinkConfiguration* LinkManager::createConfiguration(int type, const QString& name) { #ifndef NO_SERIAL_LINK if((LinkConfiguration::LinkType)type == LinkConfiguration::TypeSerial) _updateSerialPorts(); #endif return LinkConfiguration::createSettings(type, name); } LinkConfiguration* LinkManager::startConfigurationEditing(LinkConfiguration* config) { if (config) { #ifndef NO_SERIAL_LINK if(config->type() == LinkConfiguration::TypeSerial) _updateSerialPorts(); #endif return LinkConfiguration::duplicateSettings(config); } else { qWarning() << "Internal error"; return NULL; } } void LinkManager::_fixUnnamed(LinkConfiguration* config) { if (config) { //-- Check for "Unnamed" if (config->name() == "Unnamed") { switch(config->type()) { #ifndef NO_SERIAL_LINK case LinkConfiguration::TypeSerial: { QString tname = dynamic_cast(config)->portName(); #ifdef Q_OS_WIN tname.replace("\\\\.\\", ""); #else tname.replace("/dev/cu.", ""); tname.replace("/dev/", ""); #endif config->setName(QString("Serial Device on %1").arg(tname)); break; } #endif case LinkConfiguration::TypeUdp: config->setName( QString("UDP Link on Port %1").arg(dynamic_cast(config)->localPort())); break; case LinkConfiguration::TypeTcp: { TCPConfiguration* tconfig = dynamic_cast(config); if(tconfig) { config->setName( QString("TCP Link %1:%2").arg(tconfig->address().toString()).arg((int)tconfig->port())); } } break; #ifdef QGC_ENABLE_BLUETOOTH case LinkConfiguration::TypeBluetooth: { BluetoothConfiguration* tconfig = dynamic_cast(config); if(tconfig) { config->setName(QString("%1 (Bluetooth Device)").arg(tconfig->device().name)); } } break; #endif #ifndef __mobile__ case LinkConfiguration::TypeLogReplay: { LogReplayLinkConfiguration* tconfig = dynamic_cast(config); if(tconfig) { config->setName(QString("Log Replay %1").arg(tconfig->logFilenameShort())); } } break; #endif #ifdef QT_DEBUG case LinkConfiguration::TypeMock: config->setName( QString("Mock Link")); break; #endif case LinkConfiguration::TypeLast: default: break; } } } else { qWarning() << "Internal error"; } } void LinkManager::removeConfiguration(LinkConfiguration* config) { if (config) { LinkInterface* iface = config->link(); if(iface) { disconnectLink(iface); } _removeConfiguration(config); saveLinkConfigurationList(); } else { qWarning() << "Internal error"; } } bool LinkManager::isAutoconnectLink(LinkInterface* link) { for (int i=0; i<_sharedAutoconnectConfigurations.count(); i++) { if (_sharedAutoconnectConfigurations[i].data() == link->getLinkConfiguration()) { return true; } } return false; } bool LinkManager::isBluetoothAvailable(void) { return qgcApp()->isBluetoothAvailable(); } #ifndef NO_SERIAL_LINK void LinkManager::_activeLinkCheck(void) { SerialLink* link = NULL; bool found = false; if (_activeLinkCheckList.count() != 0) { link = _activeLinkCheckList.takeFirst(); if (containsLink(link) && link->isConnected()) { // Make sure there is a vehicle on the link QmlObjectListModel* vehicles = _toolbox->multiVehicleManager()->vehicles(); for (int i=0; icount(); i++) { Vehicle* vehicle = qobject_cast(vehicles->get(i)); if (vehicle->containsLink(link)) { found = true; break; } } } else { link = NULL; } } if (_activeLinkCheckList.count() == 0) { _activeLinkCheckTimer.stop(); } if (!found && link) { // See if we can get an NSH prompt on this link bool foundNSHPrompt = false; link->writeBytesSafe("\r", 1); QSignalSpy spy(link, SIGNAL(bytesReceived(LinkInterface*, QByteArray))); if (spy.wait(100)) { QList arguments = spy.takeFirst(); if (arguments[1].value().contains("nsh>")) { foundNSHPrompt = true; } } qgcApp()->showMessage(foundNSHPrompt ? tr("Please check to make sure you have an SD Card inserted in your Vehicle and try again.") : tr("Your Vehicle is not responding. If this continues, shutdown %1, restart the Vehicle letting it boot completely, then start %1.").arg(qgcApp()->applicationName())); } } #endif bool LinkManager::containsLink(LinkInterface* link) { for (int i=0; i<_sharedLinks.count(); i++) { if (_sharedLinks[i].data() == link) { return true; } } return false; } SharedLinkConfigurationPointer LinkManager::addConfiguration(LinkConfiguration* config) { _qmlConfigurations.append(config); _sharedConfigurations.append(SharedLinkConfigurationPointer(config)); return _sharedConfigurations.last(); } void LinkManager::_removeConfiguration(LinkConfiguration* config) { _qmlConfigurations.removeOne(config); for (int i=0; i<_sharedConfigurations.count(); i++) { if (_sharedConfigurations[i].data() == config) { _sharedConfigurations.removeAt(i); return; } } qWarning() << "LinkManager::_removeConfiguration called with unknown config"; } QList LinkManager::links(void) { QList rawLinks; for (int i=0; i<_sharedLinks.count(); i++) { rawLinks.append(_sharedLinks[i].data()); } return rawLinks; } void LinkManager::startAutoConnectedLinks(void) { SharedLinkConfigurationPointer conf; for(int i = 0; i < _sharedConfigurations.count(); i++) { conf = _sharedConfigurations[i]; if (conf->isAutoConnect()) createConnectedLink(conf); } } int LinkManager::_reserveMavlinkChannel(void) { // Find a mavlink channel to use for this link, Channel 0 is reserved for internal use. for (int mavlinkChannel=1; mavlinkChannel<32; mavlinkChannel++) { if (!(_mavlinkChannelsUsedBitMask & 1 << mavlinkChannel)) { mavlink_reset_channel_status(mavlinkChannel); // Start the channel on Mav 1 protocol mavlink_status_t* mavlinkStatus = mavlink_get_channel_status(mavlinkChannel); mavlinkStatus->flags |= MAVLINK_STATUS_FLAG_OUT_MAVLINK1; _mavlinkChannelsUsedBitMask |= 1 << mavlinkChannel; return mavlinkChannel; } } return 0; // All channels reserved } void LinkManager::_freeMavlinkChannel(int channel) { _mavlinkChannelsUsedBitMask &= ~(1 << channel); }