diff --git a/kstars/ekos/manager.cpp b/kstars/ekos/manager.cpp index eddf9c621..a0ff54544 100644 --- a/kstars/ekos/manager.cpp +++ b/kstars/ekos/manager.cpp @@ -1,2921 +1,2925 @@ /* Ekos Copyright (C) 2012 Jasem Mutlaq This application 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. */ #include "manager.h" #include "ekosadaptor.h" #include "kstars.h" #include "kstarsdata.h" #include "opsekos.h" #include "Options.h" #include "profileeditor.h" #include "profilewizard.h" #include "skymap.h" #include "auxiliary/darklibrary.h" #include "auxiliary/QProgressIndicator.h" #include "capture/sequencejob.h" #include "fitsviewer/fitstab.h" #include "fitsviewer/fitsview.h" #include "indi/clientmanager.h" #include "indi/driverinfo.h" #include "indi/drivermanager.h" #include "indi/guimanager.h" #include "indi/indielement.h" #include "indi/indilistener.h" #include "indi/indiproperty.h" #include "indi/indiwebmanager.h" #include "ekoslive/ekosliveclient.h" #include "ekoslive/message.h" #include "ekoslive/media.h" #include #include #include #include #include #include #include #define MAX_REMOTE_INDI_TIMEOUT 15000 #define MAX_LOCAL_INDI_TIMEOUT 5000 namespace Ekos { Manager::Manager(QWidget *parent) : QDialog(parent) { #ifdef Q_OS_OSX if (Options::independentWindowEkos()) setWindowFlags(Qt::Window); else { setWindowFlags(Qt::Window | Qt::WindowStaysOnTopHint); connect(QApplication::instance(), SIGNAL(applicationStateChanged(Qt::ApplicationState)), this, SLOT(changeAlwaysOnTop(Qt::ApplicationState))); } #endif setupUi(this); qRegisterMetaType("Ekos::CommunicationStatus"); qDBusRegisterMetaType(); new EkosAdaptor(this); QDBusConnection::sessionBus().registerObject("/KStars/Ekos", this); setWindowIcon(QIcon::fromTheme("kstars_ekos")); profileModel.reset(new QStandardItemModel(0, 4)); profileModel->setHorizontalHeaderLabels(QStringList() << "id" << "name" << "host" << "port"); captureProgress->setValue(0); sequenceProgress->setValue(0); sequenceProgress->setDecimals(0); sequenceProgress->setFormat("%v"); imageProgress->setValue(0); imageProgress->setDecimals(1); imageProgress->setFormat("%v"); imageProgress->setBarStyle(QRoundProgressBar::StyleLine); countdownTimer.setInterval(1000); connect(&countdownTimer, &QTimer::timeout, this, &Ekos::Manager::updateCaptureCountDown); toolsWidget->setIconSize(QSize(48, 48)); connect(toolsWidget, &QTabWidget::currentChanged, this, &Ekos::Manager::processTabChange); // Enable scheduler Tab toolsWidget->setTabEnabled(1, false); // Start/Stop INDI Server connect(processINDIB, &QPushButton::clicked, this, &Ekos::Manager::processINDI); processINDIB->setIcon(QIcon::fromTheme("media-playback-start")); processINDIB->setToolTip(i18n("Start")); // Connect/Disconnect INDI devices connect(connectB, &QPushButton::clicked, this, &Ekos::Manager::connectDevices); connect(disconnectB, &QPushButton::clicked, this, &Ekos::Manager::disconnectDevices); ekosLiveB->setAttribute(Qt::WA_LayoutUsesWidgetRect); ekosLiveClient.reset(new EkosLive::Client(this)); // INDI Control Panel //connect(controlPanelB, &QPushButton::clicked, GUIManager::Instance(), SLOT(show())); connect(ekosLiveB, &QPushButton::clicked, [&]() { ekosLiveClient.get()->show(); ekosLiveClient.get()->raise(); }); connect(this, &Manager::ekosStatusChanged, ekosLiveClient.get()->message(), &EkosLive::Message::setEkosStatingStatus); connect(ekosLiveClient.get()->message(), &EkosLive::Message::connected, [&]() {ekosLiveB->setIcon(QIcon(":/icons/cloud-online.svg"));}); connect(ekosLiveClient.get()->message(), &EkosLive::Message::disconnected, [&]() {ekosLiveB->setIcon(QIcon::fromTheme("folder-cloud"));}); connect(ekosLiveClient.get()->media(), &EkosLive::Media::newBoundingRect, ekosLiveClient.get()->message(), &EkosLive::Message::setBoundingRect); connect(ekosLiveClient.get()->message(), &EkosLive::Message::resetPolarView, ekosLiveClient.get()->media(), &EkosLive::Media::resetPolarView); connect(this, &Ekos::Manager::ekosStatusChanged, [&](Ekos::CommunicationStatus status) { indiControlPanelB->setEnabled(status == Ekos::Success); }); connect(indiControlPanelB, &QPushButton::clicked, [&]() { KStars::Instance()->actionCollection()->action("show_control_panel")->trigger(); }); connect(optionsB, &QPushButton::clicked, [&]() { KStars::Instance()->actionCollection()->action("configure")->trigger(); }); // Save as above, but it appears in all modules connect(ekosOptionsB, &QPushButton::clicked, this, &Ekos::Manager::showEkosOptions); // Clear Ekos Log connect(clearB, &QPushButton::clicked, this, &Ekos::Manager::clearLog); // Logs KConfigDialog *dialog = new KConfigDialog(this, "logssettings", Options::self()); opsLogs = new Ekos::OpsLogs(); KPageWidgetItem *page = dialog->addPage(opsLogs, i18n("Logging")); page->setIcon(QIcon::fromTheme("configure")); connect(logsB, &QPushButton::clicked, dialog, &KConfigDialog::show); connect(dialog->button(QDialogButtonBox::Apply), &QPushButton::clicked, this, &Ekos::Manager::updateDebugInterfaces); connect(dialog->button(QDialogButtonBox::Ok), &QPushButton::clicked, this, &Ekos::Manager::updateDebugInterfaces); // Summary // previewPixmap = new QPixmap(QPixmap(":/images/noimage.png")); // Profiles connect(addProfileB, &QPushButton::clicked, this, &Ekos::Manager::addProfile); connect(editProfileB, &QPushButton::clicked, this, &Ekos::Manager::editProfile); connect(deleteProfileB, &QPushButton::clicked, this, &Ekos::Manager::deleteProfile); connect(profileCombo, static_cast(&QComboBox::currentTextChanged), [=](const QString &text) { Options::setProfile(text); if (text == "Simulators") { editProfileB->setEnabled(false); deleteProfileB->setEnabled(false); } else { editProfileB->setEnabled(true); deleteProfileB->setEnabled(true); } }); // Ekos Wizard connect(wizardProfileB, &QPushButton::clicked, this, &Ekos::Manager::wizardProfile); addProfileB->setAttribute(Qt::WA_LayoutUsesWidgetRect); editProfileB->setAttribute(Qt::WA_LayoutUsesWidgetRect); deleteProfileB->setAttribute(Qt::WA_LayoutUsesWidgetRect); // Set Profile icons addProfileB->setIcon(QIcon::fromTheme("list-add")); addProfileB->setAttribute(Qt::WA_LayoutUsesWidgetRect); editProfileB->setIcon(QIcon::fromTheme("document-edit")); editProfileB->setAttribute(Qt::WA_LayoutUsesWidgetRect); deleteProfileB->setIcon(QIcon::fromTheme("list-remove")); deleteProfileB->setAttribute(Qt::WA_LayoutUsesWidgetRect); wizardProfileB->setIcon(QIcon::fromTheme("tools-wizard")); wizardProfileB->setAttribute(Qt::WA_LayoutUsesWidgetRect); customDriversB->setIcon(QIcon::fromTheme("roll")); customDriversB->setAttribute(Qt::WA_LayoutUsesWidgetRect); connect(customDriversB, &QPushButton::clicked, DriverManager::Instance(), &DriverManager::showCustomDrivers); // Load all drivers loadDrivers(); // Load add driver profiles loadProfiles(); // INDI Control Panel and Ekos Options optionsB->setIcon(QIcon::fromTheme("configure", QIcon(":/icons/ekos_setup.png"))); optionsB->setAttribute(Qt::WA_LayoutUsesWidgetRect); // Setup Tab toolsWidget->tabBar()->setTabIcon(0, QIcon(":/icons/ekos_setup.png")); toolsWidget->tabBar()->setTabToolTip(0, i18n("Setup")); // Initialize Ekos Scheduler Module schedulerProcess.reset(new Ekos::Scheduler()); toolsWidget->addTab(schedulerProcess.get(), QIcon(":/icons/ekos_scheduler.png"), ""); toolsWidget->tabBar()->setTabToolTip(1, i18n("Scheduler")); connect(schedulerProcess.get(), &Scheduler::newLog, this, &Ekos::Manager::updateLog); //connect(schedulerProcess.get(), SIGNAL(newTarget(QString)), mountTarget, SLOT(setText(QString))); connect(schedulerProcess.get(), &Ekos::Scheduler::newTarget, [&](const QString &target) { mountTarget->setText(target); ekosLiveClient.get()->message()->updateMountStatus(QJsonObject({{"target", target}})); }); // Temporary fix. Not sure how to resize Ekos Dialog to fit contents of the various tabs in the QScrollArea which are added // dynamically. I used setMinimumSize() but it doesn't appear to make any difference. // Also set Layout policy to SetMinAndMaxSize as well. Any idea how to fix this? // FIXME //resize(1000,750); summaryPreview.reset(new FITSView(previewWidget, FITS_NORMAL)); previewWidget->setContentsMargins(0, 0, 0, 0); summaryPreview->setSizePolicy(QSizePolicy::Expanding, QSizePolicy::Expanding); summaryPreview->setBaseSize(previewWidget->size()); summaryPreview->createFloatingToolBar(); summaryPreview->setCursorMode(FITSView::dragCursor); QVBoxLayout *vlayout = new QVBoxLayout(); vlayout->addWidget(summaryPreview.get()); previewWidget->setLayout(vlayout); connect(summaryPreview.get(), &FITSView::loaded, [&]() { // UUID binds the cloud & preview frames by a common key QString uuid = QUuid::createUuid().toString(); uuid = uuid.remove(QRegularExpression("[-{}]")); ekosLiveClient.get()->media()->sendPreviewImage(summaryPreview.get(), uuid); ekosLiveClient.get()->cloud()->sendPreviewImage(summaryPreview.get(), uuid); }); if (Options::ekosLeftIcons()) { toolsWidget->setTabPosition(QTabWidget::West); QTransform trans; trans.rotate(90); QIcon icon = toolsWidget->tabIcon(0); QPixmap pix = icon.pixmap(QSize(48, 48)); icon = QIcon(pix.transformed(trans)); toolsWidget->setTabIcon(0, icon); icon = toolsWidget->tabIcon(1); pix = icon.pixmap(QSize(48, 48)); icon = QIcon(pix.transformed(trans)); toolsWidget->setTabIcon(1, icon); } //Note: This is to prevent a button from being called the default button //and then executing when the user hits the enter key such as when on a Text Box QList qButtons = findChildren(); for (auto &button : qButtons) button->setAutoDefault(false); resize(Options::ekosWindowWidth(), Options::ekosWindowHeight()); } void Manager::changeAlwaysOnTop(Qt::ApplicationState state) { if (isVisible()) { if (state == Qt::ApplicationActive) setWindowFlags(Qt::Window | Qt::WindowStaysOnTopHint); else setWindowFlags(windowFlags() & ~Qt::WindowStaysOnTopHint); show(); } } Manager::~Manager() { toolsWidget->disconnect(this); //delete previewPixmap; } void Manager::closeEvent(QCloseEvent * /*event*/) { QAction *a = KStars::Instance()->actionCollection()->action("show_ekos"); a->setChecked(false); Options::setEkosWindowWidth(width()); Options::setEkosWindowHeight(height()); } void Manager::hideEvent(QHideEvent * /*event*/) { QAction *a = KStars::Instance()->actionCollection()->action("show_ekos"); a->setChecked(false); } void Manager::showEvent(QShowEvent * /*event*/) { QAction *a = KStars::Instance()->actionCollection()->action("show_ekos"); a->setChecked(true); // Just show the profile wizard ONCE per session if (profileWizardLaunched == false && profiles.count() == 1) { profileWizardLaunched = true; wizardProfile(); } } void Manager::resizeEvent(QResizeEvent *) { //previewImage->setPixmap(previewPixmap->scaled(previewImage->width(), previewImage->height(), Qt::KeepAspectRatio, Qt::SmoothTransformation)); if (focusStarPixmap.get() != nullptr) focusStarImage->setPixmap(focusStarPixmap->scaled(focusStarImage->width(), focusStarImage->height(), Qt::KeepAspectRatio, Qt::SmoothTransformation)); //if (focusProfilePixmap) //focusProfileImage->setPixmap(focusProfilePixmap->scaled(focusProfileImage->width(), focusProfileImage->height(), Qt::KeepAspectRatio, Qt::SmoothTransformation)); if (guideStarPixmap.get() != nullptr) guideStarImage->setPixmap(guideStarPixmap->scaled(guideStarImage->width(), guideStarImage->height(), Qt::KeepAspectRatio, Qt::SmoothTransformation)); //if (guideProfilePixmap) //guideProfileImage->setPixmap(guideProfilePixmap->scaled(guideProfileImage->width(), guideProfileImage->height(), Qt::KeepAspectRatio, Qt::SmoothTransformation)); } void Manager::loadProfiles() { profiles.clear(); KStarsData::Instance()->userdb()->GetAllProfiles(profiles); profileModel->clear(); for (auto& pi : profiles) { QList info; info << new QStandardItem(pi->id) << new QStandardItem(pi->name) << new QStandardItem(pi->host) << new QStandardItem(pi->port); profileModel->appendRow(info); } profileModel->sort(0); profileCombo->blockSignals(true); profileCombo->setModel(profileModel.get()); profileCombo->setModelColumn(1); profileCombo->blockSignals(false); // Load last used profile from options int index = profileCombo->findText(Options::profile()); // If not found, set it to first item if (index == -1) index = 0; profileCombo->setCurrentIndex(index); } void Manager::loadDrivers() { foreach (DriverInfo *dv, DriverManager::Instance()->getDrivers()) { if (dv->getDriverSource() != HOST_SOURCE) driversList[dv->getLabel()] = dv; } } void Manager::reset() { qCDebug(KSTARS_EKOS) << "Resetting Ekos Manager..."; // Filter Manager filterManager.reset(new Ekos::FilterManager()); nDevices = 0; useGuideHead = false; useST4 = false; removeTabs(); genericDevices.clear(); managedDevices.clear(); captureProcess.reset(); focusProcess.reset(); guideProcess.reset(); domeProcess.reset(); alignProcess.reset(); mountProcess.reset(); weatherProcess.reset(); dustCapProcess.reset(); Ekos::CommunicationStatus previousStatus = m_ekosStatus; m_ekosStatus = Ekos::Idle; if (previousStatus != m_ekosStatus) emit ekosStatusChanged(m_ekosStatus); previousStatus = m_indiStatus; m_indiStatus = Ekos::Idle; if (previousStatus != m_indiStatus) emit indiStatusChanged(m_indiStatus); connectB->setEnabled(false); disconnectB->setEnabled(false); //controlPanelB->setEnabled(false); processINDIB->setEnabled(true); mountGroup->setEnabled(false); focusGroup->setEnabled(false); captureGroup->setEnabled(false); guideGroup->setEnabled(false); sequenceLabel->setText(i18n("Sequence")); sequenceProgress->setValue(0); captureProgress->setValue(0); overallRemainingTime->setText("--:--:--"); sequenceRemainingTime->setText("--:--:--"); imageRemainingTime->setText("--:--:--"); mountStatus->setText(i18n("Idle")); captureStatus->setText(i18n("Idle")); focusStatus->setText(i18n("Idle")); guideStatus->setText(i18n("Idle")); if (capturePI) capturePI->stopAnimation(); if (mountPI) mountPI->stopAnimation(); if (focusPI) focusPI->stopAnimation(); if (guidePI) guidePI->stopAnimation(); m_isStarted = false; //processINDIB->setText(i18n("Start INDI")); processINDIB->setIcon(QIcon::fromTheme("media-playback-start")); processINDIB->setToolTip(i18n("Start")); } void Manager::processINDI() { if (m_isStarted == false) start(); else stop(); } bool Manager::stop() { cleanDevices(); profileGroup->setEnabled(true); return true; } bool Manager::start() { // Don't start if it is already started before if (m_ekosStatus == Ekos::Pending || m_ekosStatus == Ekos::Success) { qCDebug(KSTARS_EKOS) << "Ekos Manager start called but current Ekos Status is" << m_ekosStatus << "Ignoring request."; return true; } if (m_LocalMode) qDeleteAll(managedDrivers); managedDrivers.clear(); // If clock was paused, unpaused it and sync time if (KStarsData::Instance()->clock()->isActive() == false) { KStarsData::Instance()->changeDateTime(KStarsDateTime::currentDateTimeUtc()); KStarsData::Instance()->clock()->start(); } reset(); currentProfile = getCurrentProfile(); m_LocalMode = currentProfile->isLocal(); // Load profile location if one exists updateProfileLocation(currentProfile); bool haveCCD = false, haveGuider = false; if (currentProfile->guidertype == Ekos::Guide::GUIDE_PHD2) { Options::setPHD2Host(currentProfile->guiderhost); Options::setPHD2Port(currentProfile->guiderport); } else if (currentProfile->guidertype == Ekos::Guide::GUIDE_LINGUIDER) { Options::setLinGuiderHost(currentProfile->guiderhost); Options::setLinGuiderPort(currentProfile->guiderport); } if (m_LocalMode) { DriverInfo *drv = driversList.value(currentProfile->mount()); if (drv != nullptr) managedDrivers.append(drv->clone()); drv = driversList.value(currentProfile->ccd()); if (drv != nullptr) { managedDrivers.append(drv->clone()); haveCCD = true; } Options::setGuiderType(currentProfile->guidertype); drv = driversList.value(currentProfile->guider()); if (drv != nullptr) { haveGuider = true; // If the guider and ccd are the same driver, we have two cases: // #1 Drivers that only support ONE device per driver (such as sbig) // #2 Drivers that supports multiples devices per driver (such as sx) // For #1, we modify guider_di to make a unique label for the other device with postfix "Guide" // For #2, we set guider_di to nullptr and we prompt the user to select which device is primary ccd and which is guider // since this is the only way to find out in real time. if (haveCCD && currentProfile->guider() == currentProfile->ccd()) { if (drv->getAuxInfo().value("mdpd", false).toBool() == true) { drv = nullptr; } else { drv->setUniqueLabel(drv->getLabel() + " Guide"); } } if (drv) managedDrivers.append(drv->clone()); } drv = driversList.value(currentProfile->ao()); if (drv != nullptr) managedDrivers.append(drv->clone()); drv = driversList.value(currentProfile->filter()); if (drv != nullptr) managedDrivers.append(drv->clone()); drv = driversList.value(currentProfile->focuser()); if (drv != nullptr) managedDrivers.append(drv->clone()); drv = driversList.value(currentProfile->dome()); if (drv != nullptr) managedDrivers.append(drv->clone()); drv = driversList.value(currentProfile->weather()); if (drv != nullptr) managedDrivers.append(drv->clone()); drv = driversList.value(currentProfile->aux1()); if (drv != nullptr) managedDrivers.append(drv->clone()); drv = driversList.value(currentProfile->aux2()); if (drv != nullptr) managedDrivers.append(drv->clone()); drv = driversList.value(currentProfile->aux3()); if (drv != nullptr) managedDrivers.append(drv->clone()); drv = driversList.value(currentProfile->aux4()); if (drv != nullptr) managedDrivers.append(drv->clone()); // Add remote drivers if we have any if (currentProfile->remotedrivers.isEmpty() == false && currentProfile->remotedrivers.contains("@")) { for (auto remoteDriver : currentProfile->remotedrivers.split(",")) { QString name, label, host("localhost"), port("7624"); QStringList properties = remoteDriver.split(QRegExp("[@:]")); if (properties.length() > 1) { name = properties[0]; host = properties[1]; if (properties.length() > 2) port = properties[2]; } DriverInfo *dv = new DriverInfo(name); dv->setRemoteHost(host); dv->setRemotePort(port); label = name; // Remove extra quotes label.remove("\""); dv->setLabel(label); dv->setUniqueLabel(label); managedDrivers.append(dv); } } if (haveCCD == false && haveGuider == false) { KMessageBox::error(this, i18n("Ekos requires at least one CCD or Guider to operate.")); managedDrivers.clear(); return false; } nDevices = managedDrivers.count(); } else { DriverInfo *remote_indi = new DriverInfo(QString("Ekos Remote Host")); remote_indi->setHostParameters(currentProfile->host, QString::number(currentProfile->port)); remote_indi->setDriverSource(GENERATED_SOURCE); managedDrivers.append(remote_indi); haveCCD = currentProfile->drivers.contains("CCD"); haveGuider = currentProfile->drivers.contains("Guider"); Options::setGuiderType(currentProfile->guidertype); if (haveCCD == false && haveGuider == false) { KMessageBox::error(this, i18n("Ekos requires at least one CCD or Guider to operate.")); delete (remote_indi); nDevices = 0; return false; } nDevices = currentProfile->drivers.count(); } connect(INDIListener::Instance(), &INDIListener::newDevice, this, &Ekos::Manager::processNewDevice); connect(INDIListener::Instance(), &INDIListener::newTelescope, this, &Ekos::Manager::setTelescope); connect(INDIListener::Instance(), &INDIListener::newCCD, this, &Ekos::Manager::setCCD); connect(INDIListener::Instance(), &INDIListener::newFilter, this, &Ekos::Manager::setFilter); connect(INDIListener::Instance(), &INDIListener::newFocuser, this, &Ekos::Manager::setFocuser); connect(INDIListener::Instance(), &INDIListener::newDome, this, &Ekos::Manager::setDome); connect(INDIListener::Instance(), &INDIListener::newWeather, this, &Ekos::Manager::setWeather); connect(INDIListener::Instance(), &INDIListener::newDustCap, this, &Ekos::Manager::setDustCap); connect(INDIListener::Instance(), &INDIListener::newLightBox, this, &Ekos::Manager::setLightBox); connect(INDIListener::Instance(), &INDIListener::newST4, this, &Ekos::Manager::setST4); connect(INDIListener::Instance(), &INDIListener::deviceRemoved, this, &Ekos::Manager::removeDevice, Qt::DirectConnection); #ifdef Q_OS_OSX if (m_LocalMode||currentProfile->host=="localhost") { if (isRunning("PTPCamera")) { if (KMessageBox::Yes == (KMessageBox::questionYesNo(0, i18n("Ekos detected that PTP Camera is running and may prevent a Canon or Nikon camera from connecting to Ekos. Do you want to quit PTP Camera now?"), i18n("PTP Camera"), KStandardGuiItem::yes(), KStandardGuiItem::no(), "ekos_shutdown_PTPCamera"))) { //TODO is there a better way to do this. QProcess p; p.start("killall PTPCamera"); p.waitForFinished(); } } } #endif if (m_LocalMode) { if (isRunning("indiserver")) { if (KMessageBox::Yes == (KMessageBox::questionYesNo(nullptr, i18n("Ekos detected an instance of INDI server running. Do you wish to " "shut down the existing instance before starting a new one?"), i18n("INDI Server"), KStandardGuiItem::yes(), KStandardGuiItem::no(), "ekos_shutdown_existing_indiserver"))) { DriverManager::Instance()->stopAllDevices(); //TODO is there a better way to do this. QProcess p; p.start("pkill indiserver"); p.waitForFinished(); } } appendLogText(i18n("Starting INDI services...")); if (DriverManager::Instance()->startDevices(managedDrivers) == false) { INDIListener::Instance()->disconnect(this); qDeleteAll(managedDrivers); managedDrivers.clear(); m_ekosStatus = Ekos::Error; emit ekosStatusChanged(m_ekosStatus); return false; } connect(DriverManager::Instance(), SIGNAL(serverTerminated(QString,QString)), this, SLOT(processServerTermination(QString,QString))); m_ekosStatus = Ekos::Pending; emit ekosStatusChanged(m_ekosStatus); if (currentProfile->autoConnect) appendLogText(i18n("INDI services started on port %1.", managedDrivers.first()->getPort())); else appendLogText( i18n("INDI services started on port %1. Please connect devices.", managedDrivers.first()->getPort())); QTimer::singleShot(MAX_LOCAL_INDI_TIMEOUT, this, &Ekos::Manager::checkINDITimeout); } else { // If we need to use INDI Web Manager if (currentProfile->INDIWebManagerPort > 0) { appendLogText(i18n("Establishing communication with remote INDI Web Manager...")); m_RemoteManagerStart = false; if (INDI::WebManager::isOnline(currentProfile)) { INDI::WebManager::syncCustomDrivers(currentProfile); if (INDI::WebManager::areDriversRunning(currentProfile) == false) { INDI::WebManager::stopProfile(currentProfile); if (INDI::WebManager::startProfile(currentProfile) == false) { appendLogText(i18n("Failed to start profile on remote INDI Web Manager.")); return false; } appendLogText(i18n("Starting profile on remote INDI Web Manager...")); m_RemoteManagerStart = true; } } else appendLogText(i18n("Warning: INDI Web Manager is not online.")); } appendLogText( i18n("Connecting to remote INDI server at %1 on port %2 ...", currentProfile->host, currentProfile->port)); qApp->processEvents(); QApplication::setOverrideCursor(Qt::WaitCursor); if (DriverManager::Instance()->connectRemoteHost(managedDrivers.first()) == false) { appendLogText(i18n("Failed to connect to remote INDI server.")); INDIListener::Instance()->disconnect(this); qDeleteAll(managedDrivers); managedDrivers.clear(); m_ekosStatus = Ekos::Error; emit ekosStatusChanged(m_ekosStatus); QApplication::restoreOverrideCursor(); return false; } connect(DriverManager::Instance(), SIGNAL(serverTerminated(QString,QString)), this, SLOT(processServerTermination(QString,QString))); QApplication::restoreOverrideCursor(); m_ekosStatus = Ekos::Pending; emit ekosStatusChanged(m_ekosStatus); appendLogText( i18n("INDI services started. Connection to remote INDI server is successful. Waiting for devices...")); QTimer::singleShot(MAX_REMOTE_INDI_TIMEOUT, this, &Ekos::Manager::checkINDITimeout); } connectB->setEnabled(false); disconnectB->setEnabled(false); //controlPanelB->setEnabled(false); profileGroup->setEnabled(false); m_isStarted = true; //processINDIB->setText(i18n("Stop INDI")); processINDIB->setIcon(QIcon::fromTheme("media-playback-stop")); processINDIB->setToolTip(i18n("Stop")); return true; } void Manager::checkINDITimeout() { // Don't check anything unless we're still pending if (m_ekosStatus != Ekos::Pending) return; if (nDevices <= 0) { m_ekosStatus = Ekos::Success; emit ekosStatusChanged(m_ekosStatus); return; } if (m_LocalMode) { QStringList remainingDevices; foreach (DriverInfo *drv, managedDrivers) { if (drv->getDevices().count() == 0) remainingDevices << QString("+ %1").arg( drv->getUniqueLabel().isEmpty() == false ? drv->getUniqueLabel() : drv->getName()); } if (remainingDevices.count() == 1) { appendLogText(i18n("Unable to establish:\n%1\nPlease ensure the device is connected and powered on.", remainingDevices.at(0))); KNotification::beep(i18n("Ekos startup error")); } else { appendLogText(i18n("Unable to establish the following devices:\n%1\nPlease ensure each device is connected " "and powered on.", remainingDevices.join("\n"))); KNotification::beep(i18n("Ekos startup error")); } } else { QStringList remainingDevices; for (auto &driver : currentProfile->drivers.values()) { bool driverFound = false; for (auto &device : genericDevices) { if (device->getBaseDevice()->getDriverName() == driver) { driverFound = true; break; } } if (driverFound == false) remainingDevices << QString("+ %1").arg(driver); } if (remainingDevices.count() == 1) { appendLogText(i18n("Unable to establish remote device:\n%1\nPlease ensure remote device name corresponds " "to actual device name.", remainingDevices.at(0))); KNotification::beep(i18n("Ekos startup error")); } else { appendLogText(i18n("Unable to establish remote devices:\n%1\nPlease ensure remote device name corresponds " "to actual device name.", remainingDevices.join("\n"))); KNotification::beep(i18n("Ekos startup error")); } } m_ekosStatus = Ekos::Error; } void Manager::connectDevices() { // Check if already connected int nConnected = 0; Ekos::CommunicationStatus previousStatus = m_indiStatus; for (auto &device : genericDevices) { if (device->isConnected()) nConnected++; } if (genericDevices.count() == nConnected) { m_indiStatus = Ekos::Success; emit indiStatusChanged(m_indiStatus); return; } m_indiStatus = Ekos::Pending; if (previousStatus != m_indiStatus) emit indiStatusChanged(m_indiStatus); for (auto &device : genericDevices) { qCDebug(KSTARS_EKOS) << "Connecting " << device->getDeviceName(); device->Connect(); } connectB->setEnabled(false); disconnectB->setEnabled(true); appendLogText(i18n("Connecting INDI devices...")); } void Manager::disconnectDevices() { for (auto &device : genericDevices) { qCDebug(KSTARS_EKOS) << "Disconnecting " << device->getDeviceName(); device->Disconnect(); } appendLogText(i18n("Disconnecting INDI devices...")); } void Manager::processServerTermination(const QString &host, const QString &port) { if ((m_LocalMode && managedDrivers.first()->getPort() == port) || (currentProfile->host == host && currentProfile->port == port.toInt())) { cleanDevices(false); } } void Manager::cleanDevices(bool stopDrivers) { if (m_ekosStatus == Ekos::Idle) return; INDIListener::Instance()->disconnect(this); DriverManager::Instance()->disconnect(this); if (managedDrivers.isEmpty() == false) { if (m_LocalMode) { if (stopDrivers) DriverManager::Instance()->stopDevices(managedDrivers); } else { if (stopDrivers) DriverManager::Instance()->disconnectRemoteHost(managedDrivers.first()); if (m_RemoteManagerStart && currentProfile->INDIWebManagerPort != -1) { INDI::WebManager::stopProfile(currentProfile); m_RemoteManagerStart = false; } } } reset(); profileGroup->setEnabled(true); appendLogText(i18n("INDI services stopped.")); } void Manager::processNewDevice(ISD::GDInterface *devInterface) { qCInfo(KSTARS_EKOS) << "Ekos received a new device: " << devInterface->getDeviceName(); Ekos::CommunicationStatus previousStatus = m_indiStatus; for(auto &device: genericDevices) { if (!strcmp(device->getDeviceName(), devInterface->getDeviceName())) { qCWarning(KSTARS_EKOS) << "Found duplicate device, ignoring..."; return; } } // Always reset INDI Connection status if we receive a new device m_indiStatus = Ekos::Idle; if (previousStatus != m_indiStatus) emit indiStatusChanged(m_indiStatus); genericDevices.append(devInterface); nDevices--; connect(devInterface, &ISD::GDInterface::Connected, this, &Ekos::Manager::deviceConnected); connect(devInterface, &ISD::GDInterface::Disconnected, this, &Ekos::Manager::deviceDisconnected); connect(devInterface, &ISD::GDInterface::propertyDefined, this, &Ekos::Manager::processNewProperty); if (nDevices <= 0) { m_ekosStatus = Ekos::Success; emit ekosStatusChanged(m_ekosStatus); connectB->setEnabled(true); disconnectB->setEnabled(false); //controlPanelB->setEnabled(true); if (m_LocalMode == false && nDevices == 0) { if (currentProfile->autoConnect) appendLogText(i18n("Remote devices established.")); else appendLogText(i18n("Remote devices established. Please connect devices.")); } } } void Manager::deviceConnected() { connectB->setEnabled(false); disconnectB->setEnabled(true); processINDIB->setEnabled(false); Ekos::CommunicationStatus previousStatus = m_indiStatus; if (Options::verboseLogging()) { ISD::GDInterface *device = qobject_cast(sender()); qCInfo(KSTARS_EKOS) << device->getDeviceName() << "is connected."; } int nConnectedDevices = 0; foreach (ISD::GDInterface *device, genericDevices) { if (device->isConnected()) nConnectedDevices++; } qCDebug(KSTARS_EKOS) << nConnectedDevices << " devices connected out of " << genericDevices.count(); //if (nConnectedDevices >= pi->drivers.count()) if (nConnectedDevices >= genericDevices.count()) { m_indiStatus = Ekos::Success; qCInfo(KSTARS_EKOS)<< "All INDI devices are now connected."; } else m_indiStatus = Ekos::Pending; if (previousStatus != m_indiStatus) emit indiStatusChanged(m_indiStatus); ISD::GDInterface *dev = static_cast(sender()); if (dev->getBaseDevice()->getDriverInterface() & INDI::BaseDevice::TELESCOPE_INTERFACE) { if (mountProcess.get() != nullptr) { mountProcess->setEnabled(true); if (alignProcess.get() != nullptr) alignProcess->setEnabled(true); } } else if (dev->getBaseDevice()->getDriverInterface() & INDI::BaseDevice::CCD_INTERFACE) { if (captureProcess.get() != nullptr) captureProcess->setEnabled(true); if (focusProcess.get() != nullptr) focusProcess->setEnabled(true); if (alignProcess.get() != nullptr) { if (mountProcess.get() && mountProcess->isEnabled()) alignProcess->setEnabled(true); else alignProcess->setEnabled(false); } if (guideProcess.get() != nullptr) guideProcess->setEnabled(true); } else if (dev->getBaseDevice()->getDriverInterface() & INDI::BaseDevice::FOCUSER_INTERFACE) { if (focusProcess.get() != nullptr) focusProcess->setEnabled(true); } if (Options::neverLoadConfig()) return; INDIConfig tConfig = Options::loadConfigOnConnection() ? LOAD_LAST_CONFIG : LOAD_DEFAULT_CONFIG; foreach (ISD::GDInterface *device, genericDevices) { if (device == dev) { connect(dev, &ISD::GDInterface::switchUpdated, this, &Ekos::Manager::watchDebugProperty); ISwitchVectorProperty *configProp = device->getBaseDevice()->getSwitch("CONFIG_PROCESS"); if (configProp && configProp->s == IPS_IDLE) device->setConfig(tConfig); break; } } } void Manager::deviceDisconnected() { ISD::GDInterface *dev = static_cast(sender()); Ekos::CommunicationStatus previousStatus = m_indiStatus; if (dev != nullptr) { if (dev->getState("CONNECTION") == IPS_ALERT) m_indiStatus = Ekos::Error; else if (dev->getState("CONNECTION") == IPS_BUSY) m_indiStatus = Ekos::Pending; else m_indiStatus = Ekos::Idle; if (Options::verboseLogging()) qCDebug(KSTARS_EKOS) << dev->getDeviceName() << " is disconnected."; appendLogText(i18n("%1 is disconnected.", dev->getDeviceName())); } else m_indiStatus = Ekos::Idle; if (previousStatus != m_indiStatus) emit indiStatusChanged(m_indiStatus); connectB->setEnabled(true); disconnectB->setEnabled(false); processINDIB->setEnabled(true); if (dev != nullptr && dev->getBaseDevice() && (dev->getBaseDevice()->getDriverInterface() & INDI::BaseDevice::TELESCOPE_INTERFACE)) { if (mountProcess.get() != nullptr) mountProcess->setEnabled(false); } // Do not disable modules on device connection loss, let them handle it /* else if (dev->getBaseDevice()->getDriverInterface() & INDI::BaseDevice::CCD_INTERFACE) { if (captureProcess.get() != nullptr) captureProcess->setEnabled(false); if (focusProcess.get() != nullptr) focusProcess->setEnabled(false); if (alignProcess.get() != nullptr) alignProcess->setEnabled(false); if (guideProcess.get() != nullptr) guideProcess->setEnabled(false); } else if (dev->getBaseDevice()->getDriverInterface() & INDI::BaseDevice::FOCUSER_INTERFACE) { if (focusProcess.get() != nullptr) focusProcess->setEnabled(false); }*/ } void Manager::setTelescope(ISD::GDInterface *scopeDevice) { //mount = scopeDevice; managedDevices[KSTARS_TELESCOPE] = scopeDevice; appendLogText(i18n("%1 is online.", scopeDevice->getDeviceName())); connect(scopeDevice, SIGNAL(numberUpdated(INumberVectorProperty*)), this, SLOT(processNewNumber(INumberVectorProperty*)), Qt::UniqueConnection); initMount(); mountProcess->setTelescope(scopeDevice); double primaryScopeFL=0, primaryScopeAperture=0, guideScopeFL=0, guideScopeAperture=0; getCurrentProfileTelescopeInfo(primaryScopeFL, primaryScopeAperture, guideScopeFL, guideScopeAperture); // Save telescope info in mount driver mountProcess->setTelescopeInfo(QList() << primaryScopeFL << primaryScopeAperture << guideScopeFL << guideScopeAperture); if (guideProcess.get() != nullptr) { guideProcess->setTelescope(scopeDevice); guideProcess->setTelescopeInfo(primaryScopeFL, primaryScopeAperture, guideScopeFL, guideScopeAperture); } if (alignProcess.get() != nullptr) { alignProcess->setTelescope(scopeDevice); alignProcess->setTelescopeInfo(primaryScopeFL, primaryScopeAperture, guideScopeFL, guideScopeAperture); } if (domeProcess.get() != nullptr) domeProcess->setTelescope(scopeDevice); ekosLiveClient->message()->sendMounts(); ekosLiveClient->message()->sendScopes(); } void Manager::setCCD(ISD::GDInterface *ccdDevice) { // No duplicates for (auto oneCCD : findDevices(KSTARS_CCD)) if (oneCCD == ccdDevice) return; managedDevices.insertMulti(KSTARS_CCD, ccdDevice); initCapture(); captureProcess->setEnabled(true); captureProcess->addCCD(ccdDevice); QString primaryCCD, guiderCCD; // Only look for primary & guider CCDs if we can tell a difference between them // otherwise rely on saved options if (currentProfile->ccd() != currentProfile->guider()) { foreach (ISD::GDInterface *device, findDevices(KSTARS_CCD)) { if (QString(device->getDeviceName()).startsWith(currentProfile->ccd(), Qt::CaseInsensitive)) primaryCCD = QString(device->getDeviceName()); else if (QString(device->getDeviceName()).startsWith(currentProfile->guider(), Qt::CaseInsensitive)) guiderCCD = QString(device->getDeviceName()); } } bool rc = false; if (Options::defaultCaptureCCD().isEmpty() == false) rc = captureProcess->setCamera(Options::defaultCaptureCCD()); if (rc == false && primaryCCD.isEmpty() == false) captureProcess->setCamera(primaryCCD); initFocus(); focusProcess->addCCD(ccdDevice); rc = false; if (Options::defaultFocusCCD().isEmpty() == false) rc = focusProcess->setCamera(Options::defaultFocusCCD()); if (rc == false && primaryCCD.isEmpty() == false) focusProcess->setCamera(primaryCCD); initAlign(); alignProcess->addCCD(ccdDevice); rc = false; if (Options::defaultAlignCCD().isEmpty() == false) rc = alignProcess->setCamera(Options::defaultAlignCCD()); if (rc == false && primaryCCD.isEmpty() == false) alignProcess->setCamera(primaryCCD); initGuide(); guideProcess->addCamera(ccdDevice); rc = false; if (Options::defaultGuideCCD().isEmpty() == false) rc = guideProcess->setCamera(Options::defaultGuideCCD()); if (rc == false && guiderCCD.isEmpty() == false) guideProcess->setCamera(guiderCCD); appendLogText(i18n("%1 is online.", ccdDevice->getDeviceName())); connect(ccdDevice, SIGNAL(numberUpdated(INumberVectorProperty*)), this, SLOT(processNewNumber(INumberVectorProperty*)), Qt::UniqueConnection); if (managedDevices.contains(KSTARS_TELESCOPE)) { alignProcess->setTelescope(managedDevices[KSTARS_TELESCOPE]); captureProcess->setTelescope(managedDevices[KSTARS_TELESCOPE]); guideProcess->setTelescope(managedDevices[KSTARS_TELESCOPE]); } } void Manager::setFilter(ISD::GDInterface *filterDevice) { // No duplicates for (auto oneFilter : findDevices(KSTARS_FILTER)) if (oneFilter == filterDevice) return; managedDevices.insertMulti(KSTARS_FILTER, filterDevice); appendLogText(i18n("%1 filter is online.", filterDevice->getDeviceName())); initCapture(); connect(filterDevice, SIGNAL(numberUpdated(INumberVectorProperty*)), this, SLOT(processNewNumber(INumberVectorProperty*)), Qt::UniqueConnection); connect(filterDevice, SIGNAL(textUpdated(ITextVectorProperty*)), this, SLOT(processNewText(ITextVectorProperty*)), Qt::UniqueConnection); captureProcess->addFilter(filterDevice); initFocus(); focusProcess->addFilter(filterDevice); initAlign(); alignProcess->addFilter(filterDevice); if (Options::defaultAlignFW().isEmpty() == false) alignProcess->setFilterWheel(Options::defaultAlignFW()); } void Manager::setFocuser(ISD::GDInterface *focuserDevice) { // No duplicates for (auto oneFocuser : findDevices(KSTARS_FOCUSER)) if (oneFocuser == focuserDevice) return; managedDevices.insertMulti(KSTARS_FOCUSER, focuserDevice); initCapture(); initFocus(); focusProcess->addFocuser(focuserDevice); if (Options::defaultFocusFocuser().isEmpty() == false) focusProcess->setFocuser(Options::defaultFocusFocuser()); appendLogText(i18n("%1 focuser is online.", focuserDevice->getDeviceName())); } void Manager::setDome(ISD::GDInterface *domeDevice) { managedDevices[KSTARS_DOME] = domeDevice; initDome(); domeProcess->setDome(domeDevice); if (captureProcess.get() != nullptr) captureProcess->setDome(domeDevice); if (alignProcess.get() != nullptr) alignProcess->setDome(domeDevice); if (managedDevices.contains(KSTARS_TELESCOPE)) domeProcess->setTelescope(managedDevices[KSTARS_TELESCOPE]); appendLogText(i18n("%1 is online.", domeDevice->getDeviceName())); } void Manager::setWeather(ISD::GDInterface *weatherDevice) { managedDevices[KSTARS_WEATHER] = weatherDevice; initWeather(); weatherProcess->setWeather(weatherDevice); appendLogText(i18n("%1 is online.", weatherDevice->getDeviceName())); } void Manager::setDustCap(ISD::GDInterface *dustCapDevice) { managedDevices.insertMulti(KSTARS_AUXILIARY, dustCapDevice); initDustCap(); dustCapProcess->setDustCap(dustCapDevice); appendLogText(i18n("%1 is online.", dustCapDevice->getDeviceName())); if (captureProcess.get() != nullptr) captureProcess->setDustCap(dustCapDevice); } void Manager::setLightBox(ISD::GDInterface *lightBoxDevice) { managedDevices.insertMulti(KSTARS_AUXILIARY, lightBoxDevice); if (captureProcess.get() != nullptr) captureProcess->setLightBox(lightBoxDevice); } void Manager::removeDevice(ISD::GDInterface *devInterface) { switch (devInterface->getType()) { case KSTARS_CCD: removeTabs(); break; case KSTARS_TELESCOPE: if (mountProcess.get() != nullptr) { mountProcess.reset(); } break; case KSTARS_FOCUSER: // TODO this should be done for all modules if (focusProcess.get() != nullptr) focusProcess.get()->removeDevice(devInterface); break; default: break; } appendLogText(i18n("%1 is offline.", devInterface->getDeviceName())); // #1 Remove from Generic Devices // Generic devices are ALL the devices we receive from INDI server // Whether Ekos cares about them (i.e. selected equipment) or extra devices we // do not care about foreach (ISD::GDInterface *genericDevice, genericDevices) if (!strcmp(genericDevice->getDeviceName(), devInterface->getDeviceName())) { genericDevices.removeOne(genericDevice); break; } // #2 Remove from Ekos Managed Device // Managed devices are devices selected by the user in the device profile foreach (ISD::GDInterface *device, managedDevices.values()) { if (device == devInterface) { managedDevices.remove(managedDevices.key(device)); if (managedDevices.count() == 0) cleanDevices(); break; } } } void Manager::processNewText(ITextVectorProperty *tvp) { if (!strcmp(tvp->name, "FILTER_NAME")) { ekosLiveClient.get()->message()->sendFilterWheels(); } } void Manager::processNewNumber(INumberVectorProperty *nvp) { if (!strcmp(nvp->name, "TELESCOPE_INFO") && managedDevices.contains(KSTARS_TELESCOPE)) { if (guideProcess.get() != nullptr) { guideProcess->setTelescope(managedDevices[KSTARS_TELESCOPE]); //guideProcess->syncTelescopeInfo(); } if (alignProcess.get() != nullptr) { alignProcess->setTelescope(managedDevices[KSTARS_TELESCOPE]); //alignProcess->syncTelescopeInfo(); } if (mountProcess.get() != nullptr) { mountProcess->setTelescope(managedDevices[KSTARS_TELESCOPE]); //mountProcess->syncTelescopeInfo(); } return; } if (!strcmp(nvp->name, "CCD_INFO") || !strcmp(nvp->name, "GUIDER_INFO") || !strcmp(nvp->name, "CCD_FRAME") || !strcmp(nvp->name, "GUIDER_FRAME")) { if (focusProcess.get() != nullptr) focusProcess->syncCCDInfo(); if (guideProcess.get() != nullptr) guideProcess->syncCCDInfo(); if (alignProcess.get() != nullptr) alignProcess->syncCCDInfo(); return; } /* if (!strcmp(nvp->name, "FILTER_SLOT")) { if (captureProcess.get() != nullptr) captureProcess->checkFilter(); if (focusProcess.get() != nullptr) focusProcess->checkFilter(); if (alignProcess.get() != nullptr) alignProcess->checkFilter(); } */ } void Manager::processNewProperty(INDI::Property *prop) { ISD::GenericDevice *deviceInterface = qobject_cast(sender()); if (!strcmp(prop->getName(), "CONNECTION") && currentProfile->autoConnect) { deviceInterface->Connect(); return; } // Check if we need to turn on DEBUG for logging purposes if (!strcmp(prop->getName(), "DEBUG")) { uint16_t interface = deviceInterface->getBaseDevice()->getDriverInterface(); if ( opsLogs->getINDIDebugInterface() & interface ) { // Check if we need to enable debug logging for the INDI drivers. ISwitchVectorProperty *debugSP = prop->getSwitch(); debugSP->sp[0].s = ISS_ON; debugSP->sp[1].s = ISS_OFF; deviceInterface->getDriverInfo()->getClientManager()->sendNewSwitch(debugSP); } } // Handle debug levels for logging purposes if (!strcmp(prop->getName(), "DEBUG_LEVEL")) { uint16_t interface = deviceInterface->getBaseDevice()->getDriverInterface(); // Check if the logging option for the specific device class is on and if the device interface matches it. if ( opsLogs->getINDIDebugInterface() & interface ) { // Turn on everything ISwitchVectorProperty *debugLevel = prop->getSwitch(); for (int i=0; i < debugLevel->nsp; i++) debugLevel->sp[i].s = ISS_ON; deviceInterface->getDriverInfo()->getClientManager()->sendNewSwitch(debugLevel); } } if (!strcmp(prop->getName(), "TELESCOPE_INFO") || !strcmp(prop->getName(), "TELESCOPE_SLEW_RATE") || !strcmp(prop->getName(), "TELESCOPE_PARK")) { ekosLiveClient.get()->message()->sendMounts(); ekosLiveClient.get()->message()->sendScopes(); } if (!strcmp(prop->getName(), "CCD_INFO") || !strcmp(prop->getName(), "CCD_TEMPERATURE") || !strcmp(prop->getName(), "CCD_ISO")) { ekosLiveClient.get()->message()->sendCameras(); ekosLiveClient.get()->media()->registerCameras(); } if (!strcmp(prop->getName(), "FILTER_NAME")) ekosLiveClient.get()->message()->sendFilterWheels(); if (!strcmp(prop->getName(), "FILTER_NAME")) filterManager.data()->initFilterProperties(); if (!strcmp(prop->getName(), "CCD_INFO") || !strcmp(prop->getName(), "GUIDER_INFO")) { if (focusProcess.get() != nullptr) focusProcess->syncCCDInfo(); if (guideProcess.get() != nullptr) guideProcess->syncCCDInfo(); if (alignProcess.get() != nullptr) alignProcess->syncCCDInfo(); return; } if (!strcmp(prop->getName(), "TELESCOPE_INFO") && managedDevices.contains(KSTARS_TELESCOPE)) { if (guideProcess.get() != nullptr) { guideProcess->setTelescope(managedDevices[KSTARS_TELESCOPE]); //guideProcess->syncTelescopeInfo(); } if (alignProcess.get() != nullptr) { alignProcess->setTelescope(managedDevices[KSTARS_TELESCOPE]); //alignProcess->syncTelescopeInfo(); } if (mountProcess.get() != nullptr) { mountProcess->setTelescope(managedDevices[KSTARS_TELESCOPE]); //mountProcess->syncTelescopeInfo(); } return; } if (!strcmp(prop->getName(), "GUIDER_EXPOSURE")) { foreach (ISD::GDInterface *device, findDevices(KSTARS_CCD)) { if (!strcmp(device->getDeviceName(), prop->getDeviceName())) { initCapture(); initGuide(); useGuideHead = true; captureProcess->addGuideHead(device); guideProcess->addGuideHead(device); bool rc = false; if (Options::defaultGuideCCD().isEmpty() == false) rc = guideProcess->setCamera(Options::defaultGuideCCD()); if (rc == false) guideProcess->setCamera(QString(device->getDeviceName()) + QString(" Guider")); return; } } return; } if (!strcmp(prop->getName(), "CCD_FRAME_TYPE")) { if (captureProcess.get() != nullptr) { foreach (ISD::GDInterface *device, findDevices(KSTARS_CCD)) { if (!strcmp(device->getDeviceName(), prop->getDeviceName())) { captureProcess->syncFrameType(device); return; } } } return; } if (!strcmp(prop->getName(), "TELESCOPE_PARK") && managedDevices.contains(KSTARS_TELESCOPE)) { if (captureProcess.get() != nullptr) captureProcess->setTelescope(managedDevices[KSTARS_TELESCOPE]); if (mountProcess.get() != nullptr) mountProcess->setTelescope(managedDevices[KSTARS_TELESCOPE]); return; } /* if (!strcmp(prop->getName(), "FILTER_NAME")) { if (captureProcess.get() != nullptr) captureProcess->checkFilter(); if (focusProcess.get() != nullptr) focusProcess->checkFilter(); if (alignProcess.get() != nullptr) alignProcess->checkFilter(); return; } */ if (!strcmp(prop->getName(), "ASTROMETRY_SOLVER")) { foreach (ISD::GDInterface *device, genericDevices) { if (!strcmp(device->getDeviceName(), prop->getDeviceName())) { initAlign(); alignProcess->setAstrometryDevice(device); break; } } } if (!strcmp(prop->getName(), "ABS_ROTATOR_ANGLE")) { managedDevices[KSTARS_ROTATOR] = deviceInterface; if (captureProcess.get() != nullptr) captureProcess->setRotator(deviceInterface); if (alignProcess.get() != nullptr) alignProcess->setRotator(deviceInterface); } if (!strcmp(prop->getName(), "GPS_REFRESH")) { managedDevices.insertMulti(KSTARS_AUXILIARY, deviceInterface); if (mountProcess.get() != nullptr) mountProcess->setGPS(deviceInterface); } if (focusProcess.get() != nullptr && strstr(prop->getName(), "FOCUS_")) { focusProcess->checkFocuser(); } } QList Manager::findDevices(DeviceFamily type) { QList deviceList; QMapIterator i(managedDevices); while (i.hasNext()) { i.next(); if (i.key() == type) deviceList.append(i.value()); } return deviceList; } void Manager::processTabChange() { QWidget *currentWidget = toolsWidget->currentWidget(); //if (focusProcess.get() != nullptr && currentWidget != focusProcess) //focusProcess->resetFrame(); if (alignProcess.get() && alignProcess.get() == currentWidget) { if (alignProcess->isEnabled() == false && captureProcess->isEnabled()) { if (managedDevices[KSTARS_CCD]->isConnected() && managedDevices.contains(KSTARS_TELESCOPE)) { if (alignProcess->isParserOK()) alignProcess->setEnabled(true); //#ifdef Q_OS_WIN else { // If current setting is remote astrometry and profile doesn't contain // remote astrometry, then we switch to online solver. Otherwise, the whole align // module remains disabled and the user cannot change re-enable it since he cannot select online solver ProfileInfo *pi = getCurrentProfile(); if (Options::solverType() == Ekos::Align::SOLVER_REMOTE && pi->aux1() != "Astrometry" && pi->aux2() != "Astrometry" && pi->aux3() != "Astrometry" && pi->aux4() != "Astrometry") { Options::setSolverType(Ekos::Align::SOLVER_ONLINE); alignModule()->setSolverType(Ekos::Align::SOLVER_ONLINE); alignProcess->setEnabled(true); } } //#endif } } alignProcess->checkCCD(); } else if (captureProcess.get() != nullptr && currentWidget == captureProcess.get()) { captureProcess->checkCCD(); } else if (focusProcess.get() != nullptr && currentWidget == focusProcess.get()) { focusProcess->checkCCD(); } else if (guideProcess.get() != nullptr && currentWidget == guideProcess.get()) { guideProcess->checkCCD(); } updateLog(); } void Manager::updateLog() { //if (enableLoggingCheck->isChecked() == false) //return; QWidget *currentWidget = toolsWidget->currentWidget(); if (currentWidget == setupTab) ekosLogOut->setPlainText(m_LogText.join("\n")); else if (currentWidget == alignProcess.get()) ekosLogOut->setPlainText(alignProcess->getLogText()); else if (currentWidget == captureProcess.get()) ekosLogOut->setPlainText(captureProcess->getLogText()); else if (currentWidget == focusProcess.get()) ekosLogOut->setPlainText(focusProcess->getLogText()); else if (currentWidget == guideProcess.get()) ekosLogOut->setPlainText(guideProcess->getLogText()); else if (currentWidget == mountProcess.get()) ekosLogOut->setPlainText(mountProcess->getLogText()); if (currentWidget == schedulerProcess.get()) ekosLogOut->setPlainText(schedulerProcess->getLogText()); #ifdef Q_OS_OSX repaint(); //This is a band-aid for a bug in QT 5.10.0 #endif } void Manager::appendLogText(const QString &text) { m_LogText.insert(0, i18nc("log entry; %1 is the date, %2 is the text", "%1 %2", QDateTime::currentDateTime().toString("yyyy-MM-ddThh:mm:ss"), text)); qCInfo(KSTARS_EKOS) << text; emit newLog(text); updateLog(); } void Manager::clearLog() { QWidget *currentWidget = toolsWidget->currentWidget(); if (currentWidget == setupTab) { m_LogText.clear(); updateLog(); } else if (currentWidget == alignProcess.get()) alignProcess->clearLog(); else if (currentWidget == captureProcess.get()) captureProcess->clearLog(); else if (currentWidget == focusProcess.get()) focusProcess->clearLog(); else if (currentWidget == guideProcess.get()) guideProcess->clearLog(); else if (currentWidget == mountProcess.get()) mountProcess->clearLog(); else if (currentWidget == schedulerProcess.get()) schedulerProcess->clearLog(); } void Manager::initCapture() { if (captureProcess.get() != nullptr) return; captureProcess.reset(new Ekos::Capture()); captureProcess->setEnabled(false); int index = toolsWidget->addTab(captureProcess.get(), QIcon(":/icons/ekos_ccd.png"), ""); toolsWidget->tabBar()->setTabToolTip(index, i18nc("Charge-Coupled Device", "CCD")); if (Options::ekosLeftIcons()) { QTransform trans; trans.rotate(90); QIcon icon = toolsWidget->tabIcon(index); QPixmap pix = icon.pixmap(QSize(48, 48)); icon = QIcon(pix.transformed(trans)); toolsWidget->setTabIcon(index, icon); } connect(captureProcess.get(), &Ekos::Capture::newLog, this, &Ekos::Manager::updateLog); connect(captureProcess.get(), &Ekos::Capture::newStatus, this, &Ekos::Manager::updateCaptureStatus); connect(captureProcess.get(), &Ekos::Capture::newImage, this, &Ekos::Manager::updateCaptureProgress); connect(captureProcess.get(), &Ekos::Capture::newSequenceImage, [&](const QString &filename) { if (Options::useSummaryPreview() && QFile::exists(filename)) { summaryPreview->loadFITS(filename); } }); connect(captureProcess.get(), &Ekos::Capture::newExposureProgress, this, &Ekos::Manager::updateExposureProgress); connect(captureProcess.get(), &Ekos::Capture::sequenceChanged, ekosLiveClient.get()->message(), &EkosLive::Message::sendCaptureSequence); connect(captureProcess.get(), &Ekos::Capture::settingsUpdated, ekosLiveClient.get()->message(), &EkosLive::Message::sendCaptureSettings); captureGroup->setEnabled(true); sequenceProgress->setEnabled(true); captureProgress->setEnabled(true); imageProgress->setEnabled(true); captureProcess->setFilterManager(filterManager); if (!capturePI) { capturePI = new QProgressIndicator(captureProcess.get()); captureStatusLayout->insertWidget(0, capturePI); } foreach (ISD::GDInterface *device, findDevices(KSTARS_AUXILIARY)) { if (device->getBaseDevice()->getDriverInterface() & INDI::BaseDevice::DUSTCAP_INTERFACE) captureProcess->setDustCap(device); if (device->getBaseDevice()->getDriverInterface() & INDI::BaseDevice::LIGHTBOX_INTERFACE) captureProcess->setLightBox(device); } if (managedDevices.contains(KSTARS_DOME)) { captureProcess->setDome(managedDevices[KSTARS_DOME]); } if (managedDevices.contains(KSTARS_ROTATOR)) { captureProcess->setRotator(managedDevices[KSTARS_ROTATOR]); } connectModules(); emit newModule("Capture"); } void Manager::initAlign() { if (alignProcess.get() != nullptr) return; alignProcess.reset(new Ekos::Align(currentProfile)); double primaryScopeFL=0, primaryScopeAperture=0, guideScopeFL=0, guideScopeAperture=0; getCurrentProfileTelescopeInfo(primaryScopeFL, primaryScopeAperture, guideScopeFL, guideScopeAperture); alignProcess->setTelescopeInfo(primaryScopeFL, primaryScopeAperture, guideScopeFL, guideScopeAperture); alignProcess->setEnabled(false); int index = toolsWidget->addTab(alignProcess.get(), QIcon(":/icons/ekos_align.png"), ""); toolsWidget->tabBar()->setTabToolTip(index, i18n("Align")); connect(alignProcess.get(), &Ekos::Align::newLog, this, &Ekos::Manager::updateLog); if (Options::ekosLeftIcons()) { QTransform trans; trans.rotate(90); QIcon icon = toolsWidget->tabIcon(index); QPixmap pix = icon.pixmap(QSize(48, 48)); icon = QIcon(pix.transformed(trans)); toolsWidget->setTabIcon(index, icon); } alignProcess->setFilterManager(filterManager); if (managedDevices.contains(KSTARS_DOME)) { alignProcess->setDome(managedDevices[KSTARS_DOME]); } if (managedDevices.contains(KSTARS_ROTATOR)) { alignProcess->setRotator(managedDevices[KSTARS_ROTATOR]); } connectModules(); emit newModule("Align"); } void Manager::initFocus() { if (focusProcess.get() != nullptr) return; focusProcess.reset(new Ekos::Focus()); int index = toolsWidget->addTab(focusProcess.get(), QIcon(":/icons/ekos_focus.png"), ""); toolsWidget->tabBar()->setTabToolTip(index, i18n("Focus")); // Focus <---> Manager connections connect(focusProcess.get(), &Ekos::Focus::newLog, this, &Ekos::Manager::updateLog); connect(focusProcess.get(), &Ekos::Focus::newStatus, this, &Ekos::Manager::setFocusStatus); connect(focusProcess.get(), &Ekos::Focus::newStarPixmap, this, &Ekos::Manager::updateFocusStarPixmap); connect(focusProcess.get(), &Ekos::Focus::newProfilePixmap, this, &Ekos::Manager::updateFocusProfilePixmap); connect(focusProcess.get(), &Ekos::Focus::newHFR, this, &Ekos::Manager::updateCurrentHFR); // Focus <---> Filter Manager connections focusProcess->setFilterManager(filterManager); connect(filterManager.data(), &Ekos::FilterManager::checkFocus, focusProcess.get(), &Ekos::Focus::checkFocus, Qt::UniqueConnection); connect(focusProcess.get(), &Ekos::Focus::newStatus, filterManager.data(), &Ekos::FilterManager::setFocusStatus, Qt::UniqueConnection); connect(filterManager.data(), &Ekos::FilterManager::newFocusOffset, focusProcess.get(), &Ekos::Focus::adjustFocusOffset, Qt::UniqueConnection); connect(focusProcess.get(), &Ekos::Focus::focusPositionAdjusted, filterManager.data(), &Ekos::FilterManager::setFocusOffsetComplete, Qt::UniqueConnection); connect(focusProcess.get(), &Ekos::Focus::absolutePositionChanged, filterManager.data(), &Ekos::FilterManager::setFocusAbsolutePosition, Qt::UniqueConnection); if (Options::ekosLeftIcons()) { QTransform trans; trans.rotate(90); QIcon icon = toolsWidget->tabIcon(index); QPixmap pix = icon.pixmap(QSize(48, 48)); icon = QIcon(pix.transformed(trans)); toolsWidget->setTabIcon(index, icon); } focusGroup->setEnabled(true); if (!focusPI) { focusPI = new QProgressIndicator(focusProcess.get()); focusStatusLayout->insertWidget(0, focusPI); } connectModules(); emit newModule("Focus"); } void Manager::updateCurrentHFR(double newHFR, int position) { currentHFR->setText(QString("%1").arg(newHFR, 0, 'f', 2) + " px"); QJsonObject cStatus = { {"hfr", newHFR}, {"pos", position} }; ekosLiveClient.get()->message()->updateFocusStatus(cStatus); } void Manager::updateSigmas(double ra, double de) { errRA->setText(QString::number(ra, 'f', 2) + "\""); errDEC->setText(QString::number(de, 'f', 2) + "\""); QJsonObject cStatus = { {"rarms", ra}, {"derms", de} }; ekosLiveClient.get()->message()->updateGuideStatus(cStatus); } void Manager::initMount() { if (mountProcess.get() != nullptr) return; mountProcess.reset(new Ekos::Mount()); int index = toolsWidget->addTab(mountProcess.get(), QIcon(":/icons/ekos_mount.png"), ""); toolsWidget->tabBar()->setTabToolTip(index, i18n("Mount")); connect(mountProcess.get(), &Ekos::Mount::newLog, this, &Ekos::Manager::updateLog); connect(mountProcess.get(), &Ekos::Mount::newCoords, this, &Ekos::Manager::updateMountCoords); connect(mountProcess.get(), &Ekos::Mount::newStatus, this, &Ekos::Manager::updateMountStatus); connect(mountProcess.get(), &Ekos::Mount::newTarget, [&](const QString &target) { mountTarget->setText(target); ekosLiveClient.get()->message()->updateMountStatus(QJsonObject({{"target", target}})); }); connect(mountProcess.get(), &Ekos::Mount::slewRateChanged, [&](int slewRate) { QJsonObject status = { { "slewRate", slewRate} }; ekosLiveClient.get()->message()->updateMountStatus(status); } ); foreach (ISD::GDInterface *device, findDevices(KSTARS_AUXILIARY)) { if (device->getBaseDevice()->getDriverInterface() & INDI::BaseDevice::GPS_INTERFACE) mountProcess->setGPS(device); } if (Options::ekosLeftIcons()) { QTransform trans; trans.rotate(90); QIcon icon = toolsWidget->tabIcon(index); QPixmap pix = icon.pixmap(QSize(48, 48)); icon = QIcon(pix.transformed(trans)); toolsWidget->setTabIcon(index, icon); } if (!mountPI) { mountPI = new QProgressIndicator(mountProcess.get()); mountStatusLayout->insertWidget(0, mountPI); } mountGroup->setEnabled(true); connectModules(); emit newModule("Mount"); } void Manager::initGuide() { if (guideProcess.get() == nullptr) { guideProcess.reset(new Ekos::Guide()); double primaryScopeFL=0, primaryScopeAperture=0, guideScopeFL=0, guideScopeAperture=0; getCurrentProfileTelescopeInfo(primaryScopeFL, primaryScopeAperture, guideScopeFL, guideScopeAperture); // Save telescope info in mount driver guideProcess->setTelescopeInfo(primaryScopeFL, primaryScopeAperture, guideScopeFL, guideScopeAperture); } //if ( (haveGuider || ccdCount > 1 || useGuideHead) && useST4 && toolsWidget->indexOf(guideProcess) == -1) if ((findDevices(KSTARS_CCD).isEmpty() == false || useGuideHead) && useST4 && toolsWidget->indexOf(guideProcess.get()) == -1) { //if (mount && mount->isConnected()) if (managedDevices.contains(KSTARS_TELESCOPE) && managedDevices[KSTARS_TELESCOPE]->isConnected()) guideProcess->setTelescope(managedDevices[KSTARS_TELESCOPE]); int index = toolsWidget->addTab(guideProcess.get(), QIcon(":/icons/ekos_guide.png"), ""); toolsWidget->tabBar()->setTabToolTip(index, i18n("Guide")); connect(guideProcess.get(), &Ekos::Guide::newLog, this, &Ekos::Manager::updateLog); guideGroup->setEnabled(true); if (!guidePI) { guidePI = new QProgressIndicator(guideProcess.get()); guideStatusLayout->insertWidget(0, guidePI); } connect(guideProcess.get(), &Ekos::Guide::newStatus, this, &Ekos::Manager::updateGuideStatus); connect(guideProcess.get(), &Ekos::Guide::newStarPixmap, this, &Ekos::Manager::updateGuideStarPixmap); connect(guideProcess.get(), &Ekos::Guide::newProfilePixmap, this, &Ekos::Manager::updateGuideProfilePixmap); connect(guideProcess.get(), &Ekos::Guide::newAxisSigma, this, &Ekos::Manager::updateSigmas); if (Options::ekosLeftIcons()) { QTransform trans; trans.rotate(90); QIcon icon = toolsWidget->tabIcon(index); QPixmap pix = icon.pixmap(QSize(48, 48)); icon = QIcon(pix.transformed(trans)); toolsWidget->setTabIcon(index, icon); } } connectModules(); emit newModule("Guide"); } void Manager::initDome() { if (domeProcess.get() != nullptr) return; domeProcess.reset(new Ekos::Dome()); connect(domeProcess.get(), &Ekos::Dome::newStatus, [&](ISD::Dome::Status newStatus) { QJsonObject status = { { "status", ISD::Dome::getStatusString(newStatus)} }; ekosLiveClient.get()->message()->updateDomeStatus(status); }); connect(domeProcess.get(), &Ekos::Dome::azimuthPositionChanged, [&](double pos) { QJsonObject status = { { "az", pos} }; ekosLiveClient.get()->message()->updateDomeStatus(status); }); emit newModule("Dome"); + + ekosLiveClient->message()->sendDomes(); } void Manager::initWeather() { if (weatherProcess.get() != nullptr) return; weatherProcess.reset(new Ekos::Weather()); emit newModule("Weather"); } void Manager::initDustCap() { if (dustCapProcess.get() != nullptr) return; dustCapProcess.reset(new Ekos::DustCap()); connect(dustCapProcess.get(), &Ekos::DustCap::newStatus, [&](ISD::DustCap::Status newStatus) { QJsonObject status = { { "status", ISD::DustCap::getStatusString(newStatus)} }; ekosLiveClient.get()->message()->updateCapStatus(status); }); emit newModule("DustCap"); + + ekosLiveClient->message()->sendCaps(); } void Manager::setST4(ISD::ST4 *st4Driver) { appendLogText(i18n("Guider port from %1 is ready.", st4Driver->getDeviceName())); useST4 = true; initGuide(); guideProcess->addST4(st4Driver); if (Options::defaultST4Driver().isEmpty() == false) guideProcess->setST4(Options::defaultST4Driver()); } void Manager::removeTabs() { disconnect(toolsWidget, &QTabWidget::currentChanged, this, &Ekos::Manager::processTabChange); for (int i = 2; i < toolsWidget->count(); i++) toolsWidget->removeTab(i); alignProcess.reset(); captureProcess.reset(); focusProcess.reset(); guideProcess.reset(); mountProcess.reset(); domeProcess.reset(); weatherProcess.reset(); dustCapProcess.reset(); managedDevices.clear(); connect(toolsWidget, &QTabWidget::currentChanged, this, &Ekos::Manager::processTabChange); } bool Manager::isRunning(const QString &process) { QProcess ps; #ifdef Q_OS_OSX ps.start("pgrep", QStringList() << process); ps.waitForFinished(); QString output = ps.readAllStandardOutput(); return output.length()>0; #else ps.start("ps", QStringList() << "-o" << "comm" << "--no-headers" << "-C" << process); ps.waitForFinished(); QString output = ps.readAllStandardOutput(); return output.contains(process); #endif } void Manager::addObjectToScheduler(SkyObject *object) { if (schedulerProcess.get() != nullptr) schedulerProcess->addObject(object); } QString Manager::getCurrentJobName() { return schedulerProcess->getCurrentJobName(); } bool Manager::setProfile(const QString &profileName) { int index = profileCombo->findText(profileName); if (index < 0) return false; profileCombo->setCurrentIndex(index); return true; } QStringList Manager::getProfiles() { QStringList profiles; for (int i = 0; i < profileCombo->count(); i++) profiles << profileCombo->itemText(i); return profiles; } void Manager::addProfile() { ProfileEditor editor(this); if (editor.exec() == QDialog::Accepted) { profiles.clear(); loadProfiles(); profileCombo->setCurrentIndex(profileCombo->count() - 1); } currentProfile = getCurrentProfile(); } void Manager::editProfile() { ProfileEditor editor(this); currentProfile = getCurrentProfile(); editor.setPi(currentProfile); if (editor.exec() == QDialog::Accepted) { int currentIndex = profileCombo->currentIndex(); profiles.clear(); loadProfiles(); profileCombo->setCurrentIndex(currentIndex); } currentProfile = getCurrentProfile(); } void Manager::deleteProfile() { currentProfile = getCurrentProfile(); if (currentProfile->name == "Simulators") return; if (KMessageBox::questionYesNo(this, i18n("Are you sure you want to delete the profile?"), i18n("Confirm Delete")) == KMessageBox::No) return; KStarsData::Instance()->userdb()->DeleteProfile(currentProfile); profiles.clear(); loadProfiles(); currentProfile = getCurrentProfile(); } void Manager::wizardProfile() { ProfileWizard wz; if (wz.exec() != QDialog::Accepted) return; ProfileEditor editor(this); editor.setProfileName(wz.profileName); editor.setAuxDrivers(wz.selectedAuxDrivers()); if (wz.useInternalServer == false) editor.setHostPort(wz.host, wz.port); editor.setWebManager(wz.useWebManager); editor.setGuiderType(wz.selectedExternalGuider()); // Disable connection options editor.setConnectionOptionsEnabled(false); if (editor.exec() == QDialog::Accepted) { profiles.clear(); loadProfiles(); profileCombo->setCurrentIndex(profileCombo->count() - 1); } currentProfile = getCurrentProfile(); } ProfileInfo *Manager::getCurrentProfile() { ProfileInfo *currProfile = nullptr; // Get current profile for (auto& pi : profiles) { if (profileCombo->currentText() == pi->name) { currProfile = pi.get(); break; } } return currProfile; } void Manager::updateProfileLocation(ProfileInfo *pi) { if (pi->city.isEmpty() == false) { bool cityFound = KStars::Instance()->setGeoLocation(pi->city, pi->province, pi->country); if (cityFound) appendLogText(i18n("Site location updated to %1.", KStarsData::Instance()->geo()->fullName())); else appendLogText(i18n("Failed to update site location to %1. City not found.", KStarsData::Instance()->geo()->fullName())); } } void Manager::updateMountStatus(ISD::Telescope::Status status) { static ISD::Telescope::Status lastStatus = ISD::Telescope::MOUNT_IDLE; if (status == lastStatus) return; lastStatus = status; mountStatus->setText(dynamic_cast(managedDevices[KSTARS_TELESCOPE])->getStatusString(status)); switch (status) { case ISD::Telescope::MOUNT_PARKING: case ISD::Telescope::MOUNT_SLEWING: case ISD::Telescope::MOUNT_MOVING: mountPI->setColor(QColor(KStarsData::Instance()->colorScheme()->colorNamed("TargetColor"))); if (mountPI->isAnimated() == false) mountPI->startAnimation(); break; case ISD::Telescope::MOUNT_TRACKING: mountPI->setColor(Qt::darkGreen); if (mountPI->isAnimated() == false) mountPI->startAnimation(); break; default: if (mountPI->isAnimated()) mountPI->stopAnimation(); } QJsonObject cStatus = { {"status", mountStatus->text()} }; ekosLiveClient.get()->message()->updateMountStatus(cStatus); } void Manager::updateMountCoords(const QString &ra, const QString &dec, const QString &az, const QString &alt) { raOUT->setText(ra); decOUT->setText(dec); azOUT->setText(az); altOUT->setText(alt); QJsonObject cStatus = { {"ra", dms::fromString(ra, false).Degrees()}, {"de", dms::fromString(dec, true).Degrees()}, {"az", dms::fromString(az, true).Degrees()}, {"at", dms::fromString(alt, true).Degrees()}, }; ekosLiveClient.get()->message()->updateMountStatus(cStatus); } void Manager::updateCaptureStatus(Ekos::CaptureState status) { captureStatus->setText(Ekos::getCaptureStatusString(status)); captureProgress->setValue(captureProcess->getProgressPercentage()); overallCountDown.setHMS(0, 0, 0); overallCountDown = overallCountDown.addSecs(captureProcess->getOverallRemainingTime()); sequenceCountDown.setHMS(0, 0, 0); sequenceCountDown = sequenceCountDown.addSecs(captureProcess->getActiveJobRemainingTime()); if (status != Ekos::CAPTURE_ABORTED && status != Ekos::CAPTURE_COMPLETE && status != Ekos::CAPTURE_IDLE) { if (status == Ekos::CAPTURE_CAPTURING) capturePI->setColor(Qt::darkGreen); else capturePI->setColor(QColor(KStarsData::Instance()->colorScheme()->colorNamed("TargetColor"))); if (capturePI->isAnimated() == false) { capturePI->startAnimation(); countdownTimer.start(); } } else { if (capturePI->isAnimated()) { capturePI->stopAnimation(); countdownTimer.stop(); if (focusStatus->text() == "Complete") { if (focusPI->isAnimated()) focusPI->stopAnimation(); } imageProgress->setValue(0); sequenceLabel->setText(i18n("Sequence")); imageRemainingTime->setText("--:--:--"); overallRemainingTime->setText("--:--:--"); sequenceRemainingTime->setText("--:--:--"); } } QJsonObject cStatus = { {"status", captureStatus->text()}, {"seqt", sequenceRemainingTime->text()}, {"ovt", overallRemainingTime->text()} }; ekosLiveClient.get()->message()->updateCaptureStatus(cStatus); } void Manager::updateCaptureProgress(Ekos::SequenceJob *job) { // Image is set to nullptr only on initial capture start up int completed = job->getCompleted(); // if (job->getUploadMode() == ISD::CCD::UPLOAD_LOCAL) // completed = job->getCompleted() + 1; // else // completed = job->isPreview() ? job->getCompleted() : job->getCompleted() + 1; if (job->isPreview() == false) { sequenceLabel->setText(QString("Job # %1/%2 %3 (%4/%5)") .arg(captureProcess->getActiveJobID() + 1) .arg(captureProcess->getJobCount()) .arg(job->getFullPrefix()) .arg(completed) .arg(job->getCount())); } else sequenceLabel->setText(i18n("Preview")); sequenceProgress->setRange(0, job->getCount()); sequenceProgress->setValue(completed); QJsonObject status = { {"seqv", completed}, {"seqr", job->getCount()}, {"seql", sequenceLabel->text()} }; ekosLiveClient.get()->message()->updateCaptureStatus(status); } void Manager::updateExposureProgress(Ekos::SequenceJob *job) { imageCountDown.setHMS(0, 0, 0); imageCountDown = imageCountDown.addSecs(job->getExposeLeft()); if (imageCountDown.hour() == 23) imageCountDown.setHMS(0, 0, 0); imageProgress->setRange(0, job->getExposure()); imageProgress->setValue(job->getExposeLeft()); imageRemainingTime->setText(imageCountDown.toString("hh:mm:ss")); QJsonObject status { {"expv", job->getExposeLeft()}, {"expr", job->getExposure()} }; ekosLiveClient.get()->message()->updateCaptureStatus(status); } void Manager::updateCaptureCountDown() { overallCountDown = overallCountDown.addSecs(-1); if (overallCountDown.hour() == 23) overallCountDown.setHMS(0, 0, 0); sequenceCountDown = sequenceCountDown.addSecs(-1); if (sequenceCountDown.hour() == 23) sequenceCountDown.setHMS(0, 0, 0); overallRemainingTime->setText(overallCountDown.toString("hh:mm:ss")); sequenceRemainingTime->setText(sequenceCountDown.toString("hh:mm:ss")); QJsonObject status = { {"seqt", sequenceRemainingTime->text()}, {"ovt", overallRemainingTime->text()} }; ekosLiveClient.get()->message()->updateCaptureStatus(status); } void Manager::updateFocusStarPixmap(QPixmap &starPixmap) { if (starPixmap.isNull()) return; focusStarPixmap.reset(new QPixmap(starPixmap)); focusStarImage->setPixmap(focusStarPixmap->scaled(focusStarImage->width(), focusStarImage->height(), Qt::KeepAspectRatio, Qt::SmoothTransformation)); } void Manager::updateFocusProfilePixmap(QPixmap &profilePixmap) { if (profilePixmap.isNull()) return; focusProfileImage->setPixmap(profilePixmap); } void Manager::setFocusStatus(Ekos::FocusState status) { focusStatus->setText(Ekos::getFocusStatusString(status)); if (status >= Ekos::FOCUS_PROGRESS) { focusPI->setColor(QColor(KStarsData::Instance()->colorScheme()->colorNamed("TargetColor"))); if (focusPI->isAnimated() == false) focusPI->startAnimation(); } else if (status == Ekos::FOCUS_COMPLETE && Options::enforceAutofocus() && captureProcess->getActiveJobID() != -1) { focusPI->setColor(Qt::darkGreen); if (focusPI->isAnimated() == false) focusPI->startAnimation(); } else { if (focusPI->isAnimated()) focusPI->stopAnimation(); } QJsonObject cStatus = { {"status", focusStatus->text()} }; ekosLiveClient.get()->message()->updateFocusStatus(cStatus); } void Manager::updateGuideStatus(Ekos::GuideState status) { guideStatus->setText(Ekos::getGuideStatusString(status)); switch (status) { case Ekos::GUIDE_IDLE: case Ekos::GUIDE_CALIBRATION_ERROR: case Ekos::GUIDE_ABORTED: case Ekos::GUIDE_SUSPENDED: case Ekos::GUIDE_DITHERING_ERROR: case Ekos::GUIDE_CALIBRATION_SUCESS: if (guidePI->isAnimated()) guidePI->stopAnimation(); break; case Ekos::GUIDE_CALIBRATING: guidePI->setColor(QColor(KStarsData::Instance()->colorScheme()->colorNamed("TargetColor"))); if (guidePI->isAnimated() == false) guidePI->startAnimation(); break; case Ekos::GUIDE_GUIDING: guidePI->setColor(Qt::darkGreen); if (guidePI->isAnimated() == false) guidePI->startAnimation(); break; case Ekos::GUIDE_DITHERING: guidePI->setColor(QColor(KStarsData::Instance()->colorScheme()->colorNamed("TargetColor"))); if (guidePI->isAnimated() == false) guidePI->startAnimation(); break; case Ekos::GUIDE_DITHERING_SUCCESS: guidePI->setColor(Qt::darkGreen); if (guidePI->isAnimated() == false) guidePI->startAnimation(); break; default: if (guidePI->isAnimated()) guidePI->stopAnimation(); break; } QJsonObject cStatus = { {"status", guideStatus->text()} }; ekosLiveClient.get()->message()->updateGuideStatus(cStatus); } void Manager::updateGuideStarPixmap(QPixmap &starPix) { if (starPix.isNull()) return; guideStarPixmap.reset(new QPixmap(starPix)); guideStarImage->setPixmap(guideStarPixmap->scaled(guideStarImage->width(), guideStarImage->height(), Qt::KeepAspectRatio, Qt::SmoothTransformation)); } void Manager::updateGuideProfilePixmap(QPixmap &profilePix) { if (profilePix.isNull()) return; guideProfileImage->setPixmap(profilePix); } void Manager::setTarget(SkyObject *o) { mountTarget->setText(o->name()); ekosLiveClient.get()->message()->updateMountStatus(QJsonObject({{"target", o->name()}})); } void Manager::showEkosOptions() { QWidget *currentWidget = toolsWidget->currentWidget(); if (alignProcess.get() && alignProcess.get() == currentWidget) { KConfigDialog *alignSettings = KConfigDialog::exists("alignsettings"); if (alignSettings) { alignSettings->setEnabled(true); alignSettings->show(); } return; } if (guideProcess.get() && guideProcess.get() == currentWidget) { KConfigDialog::showDialog("guidesettings"); return; } if (ekosOptionsWidget == nullptr) { optionsB->click(); } else if (KConfigDialog::showDialog("settings")) { KConfigDialog *cDialog = KConfigDialog::exists("settings"); cDialog->setCurrentPage(ekosOptionsWidget); } } void Manager::getCurrentProfileTelescopeInfo(double &primaryFocalLength, double &primaryAperture, double &guideFocalLength, double &guideAperture) { ProfileInfo *pi = getCurrentProfile(); if (pi) { int primaryScopeID=0, guideScopeID=0; primaryScopeID=pi->primaryscope; guideScopeID=pi->guidescope; if (primaryScopeID > 0 || guideScopeID > 0) { // Get all OAL equipment filter list QList m_scopeList; KStarsData::Instance()->userdb()->GetAllScopes(m_scopeList); foreach(OAL::Scope *oneScope, m_scopeList) { if (oneScope->id().toInt() == primaryScopeID) { primaryFocalLength = oneScope->focalLength(); primaryAperture = oneScope->aperture(); } if (oneScope->id().toInt() == guideScopeID) { guideFocalLength = oneScope->focalLength(); guideAperture = oneScope->aperture(); } } } } } void Manager::updateDebugInterfaces() { KSUtils::Logging::SyncFilterRules(); for (ISD::GDInterface *device : genericDevices) { INDI::Property *debugProp = device->getProperty("DEBUG"); ISwitchVectorProperty *debugSP = nullptr; if (debugProp) debugSP = debugProp->getSwitch(); else continue; // Check if the debug interface matches the driver device class if ( ( opsLogs->getINDIDebugInterface() & device->getBaseDevice()->getDriverInterface() ) && debugSP->sp[0].s != ISS_ON) { debugSP->sp[0].s = ISS_ON; debugSP->sp[1].s = ISS_OFF; device->getDriverInfo()->getClientManager()->sendNewSwitch(debugSP); appendLogText(i18n("Enabling debug logging for %1...", device->getDeviceName())); } else if ( !( opsLogs->getINDIDebugInterface() & device->getBaseDevice()->getDriverInterface() ) && debugSP->sp[0].s != ISS_OFF) { debugSP->sp[0].s = ISS_OFF; debugSP->sp[1].s = ISS_ON; device->getDriverInfo()->getClientManager()->sendNewSwitch(debugSP); appendLogText(i18n("Disabling debug logging for %1...", device->getDeviceName())); } if (opsLogs->isINDISettingsChanged()) device->setConfig(SAVE_CONFIG); } } void Manager::watchDebugProperty(ISwitchVectorProperty *svp) { if (!strcmp(svp->name, "DEBUG")) { ISD::GenericDevice *deviceInterface = qobject_cast(sender()); // We don't process pure general interfaces if (deviceInterface->getBaseDevice()->getDriverInterface() == INDI::BaseDevice::GENERAL_INTERFACE) return; // If debug was turned off, but our logging policy requires it then turn it back on. // We turn on debug logging if AT LEAST one driver interface is selected by the logging settings if (svp->s == IPS_OK && svp->sp[0].s == ISS_OFF && (opsLogs->getINDIDebugInterface() & deviceInterface->getBaseDevice()->getDriverInterface())) { svp->sp[0].s = ISS_ON; svp->sp[1].s = ISS_OFF; deviceInterface->getDriverInfo()->getClientManager()->sendNewSwitch(svp); appendLogText(i18n("Re-enabling debug logging for %1...", deviceInterface->getDeviceName())); } // To turn off debug logging, NONE of the driver interfaces should be enabled in logging settings. // For example, if we have CCD+FilterWheel device and CCD + Filter Wheel logging was turned on in // the log settings, then if the user turns off only CCD logging, the debug logging is NOT // turned off until he turns off Filter Wheel logging as well. else if (svp->s == IPS_OK && svp->sp[0].s == ISS_ON && !(opsLogs->getINDIDebugInterface() & deviceInterface->getBaseDevice()->getDriverInterface())) { svp->sp[0].s = ISS_OFF; svp->sp[1].s = ISS_ON; deviceInterface->getDriverInfo()->getClientManager()->sendNewSwitch(svp); appendLogText(i18n("Re-disabling debug logging for %1...", deviceInterface->getDeviceName())); } } } void Manager::announceEvent(const QString &message, KSNotification::EventType event) { ekosLiveClient.get()->message()->sendEvent(message, event); } void Manager::connectModules() { // Guide <---> Capture connections if (captureProcess.get() && guideProcess.get()) { captureProcess.get()->disconnect(guideProcess.get()); guideProcess.get()->disconnect(captureProcess.get()); // Guide Limits connect(guideProcess.get(), &Ekos::Guide::newStatus, captureProcess.get(), &Ekos::Capture::setGuideStatus, Qt::UniqueConnection); connect(guideProcess.get(), &Ekos::Guide::newAxisDelta, captureProcess.get(), &Ekos::Capture::setGuideDeviation); // Dithering connect(captureProcess.get(), &Ekos::Capture::newStatus, guideProcess.get(), &Ekos::Guide::setCaptureStatus, Qt::UniqueConnection); // Guide Head connect(captureProcess.get(), &Ekos::Capture::suspendGuiding, guideProcess.get(), &Ekos::Guide::suspend, Qt::UniqueConnection); connect(captureProcess.get(), &Ekos::Capture::resumeGuiding, guideProcess.get(), &Ekos::Guide::resume, Qt::UniqueConnection); connect(guideProcess.get(), &Ekos::Guide::guideChipUpdated, captureProcess.get(), &Ekos::Capture::setGuideChip, Qt::UniqueConnection); // Meridian Flip connect(captureProcess.get(), &Ekos::Capture::meridianFlipStarted, guideProcess.get(), &Ekos::Guide::abort, Qt::UniqueConnection); connect(captureProcess.get(), &Ekos::Capture::meridianFlipCompleted, guideProcess.get(), [&]() { if (Options::resetGuideCalibration()) guideProcess->clearCalibration(); guideProcess->guide(); }); } // Guide <---> Mount connections if (guideProcess.get() && mountProcess.get()) { // Parking connect(mountProcess.get(), &Ekos::Mount::newStatus, guideProcess.get(), &Ekos::Guide::setMountStatus, Qt::UniqueConnection); } // Focus <---> Guide connections if (guideProcess.get() && focusProcess.get()) { // Suspend connect(focusProcess.get(), &Ekos::Focus::suspendGuiding, guideProcess.get(), &Ekos::Guide::suspend, Qt::UniqueConnection); connect(focusProcess.get(), &Ekos::Focus::resumeGuiding, guideProcess.get(), &Ekos::Guide::resume, Qt::UniqueConnection); } // Capture <---> Focus connections if (captureProcess.get() && focusProcess.get()) { // Check focus HFR value connect(captureProcess.get(), &Ekos::Capture::checkFocus, focusProcess.get(), &Ekos::Focus::checkFocus, Qt::UniqueConnection); // Meridian Flip connect(captureProcess.get(), &Ekos::Capture::meridianFlipStarted, focusProcess.get(), &Ekos::Focus::resetFrame, Qt::UniqueConnection); // New Focus Status connect(focusProcess.get(), &Ekos::Focus::newStatus, captureProcess.get(), &Ekos::Capture::setFocusStatus, Qt::UniqueConnection); // New Focus HFR connect(focusProcess.get(), &Ekos::Focus::newHFR, captureProcess.get(), &Ekos::Capture::setHFR, Qt::UniqueConnection); } // Capture <---> Align connections if (captureProcess.get() && alignProcess.get()) { // Alignment flag connect(alignProcess.get(), &Ekos::Align::newStatus, captureProcess.get(), &Ekos::Capture::setAlignStatus, Qt::UniqueConnection); // Solver data connect(alignProcess.get(), &Ekos::Align::newSolverResults, captureProcess.get(), &Ekos::Capture::setAlignResults, Qt::UniqueConnection); // Capture Status connect(captureProcess.get(), &Ekos::Capture::newStatus, alignProcess.get(), &Ekos::Align::setCaptureStatus, Qt::UniqueConnection); } // Capture <---> Mount connections if (captureProcess.get() && mountProcess.get()) { // Meridian Flip states connect(captureProcess.get(), &Ekos::Capture::meridianFlipStarted, mountProcess.get(), &Ekos::Mount::disableAltLimits, Qt::UniqueConnection); connect(captureProcess.get(), &Ekos::Capture::meridianFlipCompleted, mountProcess.get(), &Ekos::Mount::enableAltLimits, Qt::UniqueConnection); // Mount Status connect(mountProcess.get(), &Ekos::Mount::newStatus, captureProcess.get(), &Ekos::Capture::setMountStatus, Qt::UniqueConnection); } // Focus <---> Align connections if (focusProcess.get() && alignProcess.get()) { connect(focusProcess.get(), &Ekos::Focus::newStatus, alignProcess.get(), &Ekos::Align::setFocusStatus, Qt::UniqueConnection); } // Focus <---> Mount connections if (focusProcess.get() && mountProcess.get()) { connect(mountProcess.get(), &Ekos::Mount::newStatus, focusProcess.get(), &Ekos::Focus::setMountStatus, Qt::UniqueConnection); } // Mount <---> Align connections if (mountProcess.get() && alignProcess.get()) { connect(mountProcess.get(), &Ekos::Mount::newStatus, alignProcess.get(), &Ekos::Align::setMountStatus, Qt::UniqueConnection); } // Focus <---> Align connections if (focusProcess.get() && alignProcess.get()) { connect(focusProcess.get(), &Ekos::Focus::newStatus, alignProcess.get(), &Ekos::Align::setFocusStatus, Qt::UniqueConnection); } // Align <--> EkosLive connectoins if (alignProcess.get() && ekosLiveClient.get()) { alignProcess.get()->disconnect(ekosLiveClient.get()); connect(alignProcess.get(), &Ekos::Align::newStatus, ekosLiveClient.get()->message(), &EkosLive::Message::setAlignStatus); connect(alignProcess.get(), &Ekos::Align::newSolution, ekosLiveClient.get()->message(), &EkosLive::Message::setAlignSolution); connect(alignProcess.get(), &Ekos::Align::newPAHStage, ekosLiveClient.get()->message(), &EkosLive::Message::setPAHStage); connect(alignProcess.get(), &Ekos::Align::newPAHMessage, ekosLiveClient.get()->message(), &EkosLive::Message::setPAHMessage); connect(alignProcess.get(), &Ekos::Align::PAHEnabled, ekosLiveClient.get()->message(), &EkosLive::Message::setPAHEnabled); connect(alignProcess.get(), &Ekos::Align::newImage, [&](FITSView *view) { ekosLiveClient.get()->media()->sendPreviewImage(view, QString()); }); connect(alignProcess.get(), &Ekos::Align::newFrame, ekosLiveClient.get()->media(), &EkosLive::Media::sendUpdatedFrame); connect(alignProcess.get(), &Ekos::Align::polarResultUpdated, ekosLiveClient.get()->message(), &EkosLive::Message::setPolarResults); connect(alignProcess.get(), &Ekos::Align::settingsUpdated, ekosLiveClient.get()->message(), &EkosLive::Message::sendAlignSettings); connect(alignProcess.get(), &Ekos::Align::newCorrectionVector, ekosLiveClient.get()->media(), &EkosLive::Media::setCorrectionVector); } } }