#include "pair.h" #include "backend/computermanager.h" #include "backend/computerseeker.h" #include #include #define COMPUTER_SEEK_TIMEOUT 10000 namespace CliPair { enum State { StateInit, StateSeekComputer, StatePairing, StateFailure, StateComplete, }; class Event { public: enum Type { ComputerFound, Executed, PairingCompleted, Timedout, }; Event(Type type) : type(type), computerManager(nullptr), computer(nullptr) {} Type type; ComputerManager *computerManager; NvComputer *computer; QString errorMessage; }; class LauncherPrivate { Q_DECLARE_PUBLIC(Launcher) public: LauncherPrivate(Launcher *q) : q_ptr(q) {} void handleEvent(Event event) { Q_Q(Launcher); switch (event.type) { // Occurs when CliPair becomes visible and the UI calls launcher's execute() case Event::Executed: if (m_State == StateInit) { m_State = StateSeekComputer; m_ComputerManager = event.computerManager; q->connect(m_ComputerManager, &ComputerManager::pairingCompleted, q, &Launcher::onPairingCompleted); // If we weren't provided a predefined PIN, generate one now if (m_PredefinedPin.isEmpty()) { m_PredefinedPin = m_ComputerManager->generatePinString(); } m_ComputerSeeker = new ComputerSeeker(m_ComputerManager, m_ComputerName, q); q->connect(m_ComputerSeeker, &ComputerSeeker::computerFound, q, &Launcher::onComputerFound); q->connect(m_ComputerSeeker, &ComputerSeeker::errorTimeout, q, &Launcher::onTimeout); m_ComputerSeeker->start(COMPUTER_SEEK_TIMEOUT); emit q->searchingComputer(); } break; // Occurs when searched computer is found case Event::ComputerFound: if (m_State == StateSeekComputer) { if (event.computer->pairState == NvComputer::PS_PAIRED) { m_State = StateFailure; QString msg = QObject::tr("%1 is already paired").arg(event.computer->name); emit q->failed(msg); } else { Q_ASSERT(!m_PredefinedPin.isEmpty()); m_State = StatePairing; m_ComputerManager->pairHost(event.computer, m_PredefinedPin); emit q->pairing(event.computer->name, m_PredefinedPin); } } break; // Occurs when pairing operation completes case Event::PairingCompleted: if (m_State == StatePairing) { if (event.errorMessage.isEmpty()) { m_State = StateComplete; emit q->success(); } else { m_State = StateFailure; emit q->failed(event.errorMessage); } } break; // Occurs when computer search timed out case Event::Timedout: if (m_State == StateSeekComputer) { m_State = StateFailure; emit q->failed(QObject::tr("Failed to connect to %1").arg(m_ComputerName)); } break; } } Launcher *q_ptr; QString m_ComputerName; QString m_PredefinedPin; ComputerManager *m_ComputerManager; ComputerSeeker *m_ComputerSeeker; NvComputer *m_Computer; State m_State; QTimer *m_TimeoutTimer; }; Launcher::Launcher(QString computer, QString predefinedPin, QObject *parent) : QObject(parent), m_DPtr(new LauncherPrivate(this)) { Q_D(Launcher); d->m_ComputerName = computer; d->m_PredefinedPin = predefinedPin; d->m_State = StateInit; d->m_TimeoutTimer = new QTimer(this); d->m_TimeoutTimer->setSingleShot(true); connect(d->m_TimeoutTimer, &QTimer::timeout, this, &Launcher::onTimeout); } Launcher::~Launcher() { } void Launcher::execute(ComputerManager *manager) { Q_D(Launcher); Event event(Event::Executed); event.computerManager = manager; d->handleEvent(event); } bool Launcher::isExecuted() const { Q_D(const Launcher); return d->m_State != StateInit; } void Launcher::onComputerFound(NvComputer *computer) { Q_D(Launcher); Event event(Event::ComputerFound); event.computer = computer; d->handleEvent(event); } void Launcher::onTimeout() { Q_D(Launcher); Event event(Event::Timedout); d->handleEvent(event); } void Launcher::onPairingCompleted(NvComputer* computer, QString error) { Q_D(Launcher); Event event(Event::PairingCompleted); event.computer = computer; event.errorMessage = error; d->handleEvent(event); } }