path: root/src/bluetooth/qbluetoothdevicediscoveryagent_winrt.cpp

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**
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#include "qbluetoothdevicediscoveryagent.h"
#include "qbluetoothdevicediscoveryagent_p.h"
#include "qbluetoothaddress.h"
#include "qbluetoothuuid.h"
#include "qfunctions_winrt.h"

#include <QtCore/QLoggingCategory>
#include <QtCore/private/qeventdispatcher_winrt_p.h>

#include <wrl.h>
#include <windows.devices.enumeration.h>
#include <windows.devices.bluetooth.h>
#include <windows.foundation.collections.h>
#include <windows.storage.streams.h>

#include <windows.devices.bluetooth.advertisement.h>

using namespace Microsoft::WRL;
using namespace Microsoft::WRL::Wrappers;
using namespace ABI::Windows::Foundation;
using namespace ABI::Windows::Foundation::Collections;
using namespace ABI::Windows::Devices;
using namespace ABI::Windows::Devices::Bluetooth;
using namespace ABI::Windows::Devices::Bluetooth::Advertisement;
using namespace ABI::Windows::Devices::Enumeration;

QT_BEGIN_NAMESPACE

Q_DECLARE_LOGGING_CATEGORY(QT_BT_WINRT)

#define WARN_AND_RETURN_IF_FAILED(msg, ret) \
    if (FAILED(hr)) { \
        qCWarning(QT_BT_WINRT) << msg; \
        ret; \
    }

class QWinRTBluetoothDeviceDiscoveryWorker : public QObject
{
    Q_OBJECT
public:
    explicit QWinRTBluetoothDeviceDiscoveryWorker(QBluetoothDeviceDiscoveryAgent::DiscoveryMethods methods);
    ~QWinRTBluetoothDeviceDiscoveryWorker();
    void start();
    void stop();

private:
    void startDeviceDiscovery(QBluetoothDeviceDiscoveryAgent::DiscoveryMethod mode);
    void onDeviceDiscoveryFinished(IAsyncOperation<DeviceInformationCollection *> *op,
                                   QBluetoothDeviceDiscoveryAgent::DiscoveryMethod mode);
    void gatherDeviceInformation(IDeviceInformation *deviceInfo,
                                 QBluetoothDeviceDiscoveryAgent::DiscoveryMethod mode);
    void gatherMultipleDeviceInformation(quint32 deviceCount, IVectorView<DeviceInformation *> *devices,
                                         QBluetoothDeviceDiscoveryAgent::DiscoveryMethod mode);
    void setupLEDeviceWatcher();
    void classicBluetoothInfoFromDeviceIdAsync(HSTRING deviceId);
    void leBluetoothInfoFromDeviceIdAsync(HSTRING deviceId);
    void leBluetoothInfoFromAddressAsync(quint64 address);
    HRESULT onPairedClassicBluetoothDeviceFoundAsync(IAsyncOperation<BluetoothDevice *> *op, AsyncStatus status );
    HRESULT onPairedBluetoothLEDeviceFoundAsync(IAsyncOperation<BluetoothLEDevice *> *op, AsyncStatus status);
    HRESULT onBluetoothLEDeviceFoundAsync(IAsyncOperation<BluetoothLEDevice *> *op, AsyncStatus status);
    enum PairingCheck {
        CheckForPairing,
        OmitPairingCheck
    };
    HRESULT onBluetoothLEDeviceFound(ComPtr<IBluetoothLEDevice> device, PairingCheck pairingCheck = CheckForPairing);

public slots:
    void finishDiscovery();

Q_SIGNALS:
    void deviceFound(const QBluetoothDeviceInfo &info);
    void scanFinished();

public:
    quint8 requestedModes;

private:
    ComPtr<IBluetoothLEAdvertisementWatcher> m_leWatcher;
    EventRegistrationToken m_leDeviceAddedToken;
    QVector<quint64> m_foundLEDevices;
    int m_pendingPairedDevices;

    ComPtr<IBluetoothDeviceStatics> m_deviceStatics;
    ComPtr<IBluetoothLEDeviceStatics> m_leDeviceStatics;
};

QWinRTBluetoothDeviceDiscoveryWorker::QWinRTBluetoothDeviceDiscoveryWorker(QBluetoothDeviceDiscoveryAgent::DiscoveryMethods methods)
    : requestedModes(methods)
    , m_pendingPairedDevices(0)
{
    qRegisterMetaType<QBluetoothDeviceInfo>();

    HRESULT hr = GetActivationFactory(HString::MakeReference(RuntimeClass_Windows_Devices_Bluetooth_BluetoothDevice).Get(), &m_deviceStatics);
    Q_ASSERT_SUCCEEDED(hr);
    hr = GetActivationFactory(HString::MakeReference(RuntimeClass_Windows_Devices_Bluetooth_BluetoothLEDevice).Get(), &m_leDeviceStatics);
    Q_ASSERT_SUCCEEDED(hr);
}

QWinRTBluetoothDeviceDiscoveryWorker::~QWinRTBluetoothDeviceDiscoveryWorker()
{
    stop();
}

void QWinRTBluetoothDeviceDiscoveryWorker::start()
{
    QEventDispatcherWinRT::runOnXamlThread([this]() {
        if (requestedModes & QBluetoothDeviceDiscoveryAgent::ClassicMethod)
            startDeviceDiscovery(QBluetoothDeviceDiscoveryAgent::ClassicMethod);

        if (requestedModes & QBluetoothDeviceDiscoveryAgent::LowEnergyMethod) {
            startDeviceDiscovery(QBluetoothDeviceDiscoveryAgent::LowEnergyMethod);
            setupLEDeviceWatcher();
        }
        return S_OK;
    });

    qCDebug(QT_BT_WINRT) << "Worker started";
}

void QWinRTBluetoothDeviceDiscoveryWorker::stop()
{
    if (m_leWatcher) {
        HRESULT hr = m_leWatcher->Stop();
        Q_ASSERT_SUCCEEDED(hr);
        if (m_leDeviceAddedToken.value) {
            hr = m_leWatcher->remove_Received(m_leDeviceAddedToken);
            Q_ASSERT_SUCCEEDED(hr);
        }
    }
}

void QWinRTBluetoothDeviceDiscoveryWorker::startDeviceDiscovery(QBluetoothDeviceDiscoveryAgent::DiscoveryMethod mode)
{
    HString deviceSelector;
    ComPtr<IDeviceInformationStatics> deviceInformationStatics;
    HRESULT hr = GetActivationFactory(HString::MakeReference(RuntimeClass_Windows_Devices_Enumeration_DeviceInformation).Get(), &deviceInformationStatics);
    WARN_AND_RETURN_IF_FAILED("Could not obtain device information statics", return);
    if (mode == QBluetoothDeviceDiscoveryAgent::LowEnergyMethod)
        m_leDeviceStatics->GetDeviceSelector(deviceSelector.GetAddressOf());
    else
        m_deviceStatics->GetDeviceSelector(deviceSelector.GetAddressOf());
    ComPtr<IAsyncOperation<DeviceInformationCollection *>> op;
    hr = deviceInformationStatics->FindAllAsyncAqsFilter(deviceSelector.Get(), &op);
    WARN_AND_RETURN_IF_FAILED("Could not start bluetooth device discovery operation", return);
    hr = op->put_Completed(
        Callback<IAsyncOperationCompletedHandler<DeviceInformationCollection *>>([this, mode](IAsyncOperation<DeviceInformationCollection *> *op, AsyncStatus) {
        onDeviceDiscoveryFinished(op, mode);
        return S_OK;
    }).Get());
    WARN_AND_RETURN_IF_FAILED("Could not add callback to bluetooth device discovery operation", return);
}

void QWinRTBluetoothDeviceDiscoveryWorker::onDeviceDiscoveryFinished(IAsyncOperation<DeviceInformationCollection *> *op, QBluetoothDeviceDiscoveryAgent::DiscoveryMethod mode)
{
    qCDebug(QT_BT_WINRT) << (mode == QBluetoothDeviceDiscoveryAgent::ClassicMethod ? "BT" : "BTLE")
        << " scan completed";
    ComPtr<IVectorView<DeviceInformation *>> devices;
    HRESULT hr;
    hr = op->GetResults(&devices);
    Q_ASSERT_SUCCEEDED(hr);
    quint32 deviceCount;
    hr = devices->get_Size(&deviceCount);
    Q_ASSERT_SUCCEEDED(hr);

    // For classic discovery only paired devices will be found. If we only do classic disovery and
    // no device is found, the scan is finished.
    if (requestedModes == QBluetoothDeviceDiscoveryAgent::ClassicMethod &&
        deviceCount == 0) {
        finishDiscovery();
        return;
    }

    m_pendingPairedDevices += deviceCount;
    gatherMultipleDeviceInformation(deviceCount, devices.Get(), mode);
}

void QWinRTBluetoothDeviceDiscoveryWorker::gatherDeviceInformation(IDeviceInformation *deviceInfo, QBluetoothDeviceDiscoveryAgent::DiscoveryMethod mode)
{
    HString deviceId;
    HRESULT hr;
    hr = deviceInfo->get_Id(deviceId.GetAddressOf());
    Q_ASSERT_SUCCEEDED(hr);
    if (mode == QBluetoothDeviceDiscoveryAgent::LowEnergyMethod)
        leBluetoothInfoFromDeviceIdAsync(deviceId.Get());
    else
        classicBluetoothInfoFromDeviceIdAsync(deviceId.Get());
}

void QWinRTBluetoothDeviceDiscoveryWorker::gatherMultipleDeviceInformation(quint32 deviceCount, IVectorView<DeviceInformation *> *devices, QBluetoothDeviceDiscoveryAgent::DiscoveryMethod mode)
{
    for (quint32 i = 0; i < deviceCount; ++i) {
        ComPtr<IDeviceInformation> device;
        HRESULT hr = devices->GetAt(i, &device);
        Q_ASSERT_SUCCEEDED(hr);
        gatherDeviceInformation(device.Get(), mode);
    }
}

void QWinRTBluetoothDeviceDiscoveryWorker::setupLEDeviceWatcher()
{
    HRESULT hr = RoActivateInstance(HString::MakeReference(RuntimeClass_Windows_Devices_Bluetooth_Advertisement_BluetoothLEAdvertisementWatcher).Get(), &m_leWatcher);
    Q_ASSERT_SUCCEEDED(hr);
    hr = m_leWatcher->add_Received(Callback<ITypedEventHandler<BluetoothLEAdvertisementWatcher *, BluetoothLEAdvertisementReceivedEventArgs *>>([this](IBluetoothLEAdvertisementWatcher *, IBluetoothLEAdvertisementReceivedEventArgs *args) {
        quint64 address;
        HRESULT hr;
        hr = args->get_BluetoothAddress(&address);
        Q_ASSERT_SUCCEEDED(hr);
        if (m_foundLEDevices.contains(address))
            return S_OK;

        m_foundLEDevices.append(address);
        leBluetoothInfoFromAddressAsync(address);
        return S_OK;
    }).Get(), &m_leDeviceAddedToken);
    Q_ASSERT_SUCCEEDED(hr);
    hr = m_leWatcher->Start();
    Q_ASSERT_SUCCEEDED(hr);
}

void QWinRTBluetoothDeviceDiscoveryWorker::finishDiscovery()
{
    emit scanFinished();
    deleteLater();
}

// "deviceFound" will be emitted at the end of the deviceFromIdOperation callback
void QWinRTBluetoothDeviceDiscoveryWorker::classicBluetoothInfoFromDeviceIdAsync(HSTRING deviceId)
{
    HRESULT hr;
    hr = QEventDispatcherWinRT::runOnXamlThread([deviceId, this]() {
        ComPtr<IAsyncOperation<BluetoothDevice *>> deviceFromIdOperation;
        // on Windows 10 FromIdAsync might ask for device permission. We cannot wait here but have to handle that asynchronously
        HRESULT hr = m_deviceStatics->FromIdAsync(deviceId, &deviceFromIdOperation);
        if (FAILED(hr)) {
            --m_pendingPairedDevices;
            if (!m_pendingPairedDevices
                    && !(requestedModes & QBluetoothDeviceDiscoveryAgent::LowEnergyMethod))
                finishDiscovery();
            qCWarning(QT_BT_WINRT) << "Could not obtain bluetooth device from id";
            return S_OK;
        }

        hr = deviceFromIdOperation->put_Completed(Callback<IAsyncOperationCompletedHandler<BluetoothDevice *>>
                                                  (this, &QWinRTBluetoothDeviceDiscoveryWorker::onPairedClassicBluetoothDeviceFoundAsync).Get());
        if (FAILED(hr)) {
            --m_pendingPairedDevices;
            if (!m_pendingPairedDevices
                    && !(requestedModes & QBluetoothDeviceDiscoveryAgent::LowEnergyMethod))
                finishDiscovery();
            qCWarning(QT_BT_WINRT) << "Could not register device found callback";
            return S_OK;
        }
        return S_OK;
    });
    Q_ASSERT_SUCCEEDED(hr);
}

// "deviceFound" will be emitted at the end of the deviceFromIdOperation callback
void QWinRTBluetoothDeviceDiscoveryWorker::leBluetoothInfoFromDeviceIdAsync(HSTRING deviceId)
{
    HRESULT hr;
    hr = QEventDispatcherWinRT::runOnXamlThread([deviceId, this]() {
        ComPtr<IAsyncOperation<BluetoothLEDevice *>> deviceFromIdOperation;
        // on Windows 10 FromIdAsync might ask for device permission. We cannot wait here but have to handle that asynchronously
        HRESULT hr = m_leDeviceStatics->FromIdAsync(deviceId, &deviceFromIdOperation);
        if (FAILED(hr)) {
            --m_pendingPairedDevices;
            qCWarning(QT_BT_WINRT) << "Could not obtain bluetooth device from id";
            return S_OK;
        }

        hr = deviceFromIdOperation->put_Completed(Callback<IAsyncOperationCompletedHandler<BluetoothLEDevice *>>
                                                  (this, &QWinRTBluetoothDeviceDiscoveryWorker::onPairedBluetoothLEDeviceFoundAsync).Get());
        if (FAILED(hr)) {
            --m_pendingPairedDevices;
            qCWarning(QT_BT_WINRT) << "Could not register device found callback";
            return S_OK;
        }
        return S_OK;
    });
    Q_ASSERT_SUCCEEDED(hr);
}

// "deviceFound" will be emitted at the end of the deviceFromAdressOperation callback
void QWinRTBluetoothDeviceDiscoveryWorker::leBluetoothInfoFromAddressAsync(quint64 address)
{
    HRESULT hr;
    hr = QEventDispatcherWinRT::runOnXamlThread([address, this]() {
        ComPtr<IAsyncOperation<BluetoothLEDevice *>> deviceFromAddressOperation;
        // on Windows 10 FromBluetoothAddressAsync might ask for device permission. We cannot wait
        // here but have to handle that asynchronously
        HRESULT hr = m_leDeviceStatics->FromBluetoothAddressAsync(address, &deviceFromAddressOperation);
        if (FAILED(hr)) {
            qCWarning(QT_BT_WINRT) << "Could not obtain bluetooth device from address";
            return S_OK;
        }

        hr = deviceFromAddressOperation->put_Completed(Callback<IAsyncOperationCompletedHandler<BluetoothLEDevice *>>
            (this, &QWinRTBluetoothDeviceDiscoveryWorker::onBluetoothLEDeviceFoundAsync).Get());
        if (FAILED(hr)) {
            qCWarning(QT_BT_WINRT) << "Could not register device found callback";
            return S_OK;
        }
        return S_OK;
    });
    Q_ASSERT_SUCCEEDED(hr);
}

HRESULT QWinRTBluetoothDeviceDiscoveryWorker::onPairedClassicBluetoothDeviceFoundAsync(IAsyncOperation<BluetoothDevice *> *op, AsyncStatus status)
{
    --m_pendingPairedDevices;
    if (status != AsyncStatus::Completed)
        return S_OK;

    ComPtr<IBluetoothDevice> device;
    HRESULT hr = op->GetResults(&device);
    Q_ASSERT_SUCCEEDED(hr);

    if (!device)
        return S_OK;

    UINT64 address;
    HString name;
    ComPtr<IBluetoothClassOfDevice> classOfDevice;
    UINT32 classOfDeviceInt;
    hr = device->get_BluetoothAddress(&address);
    Q_ASSERT_SUCCEEDED(hr);
    hr = device->get_Name(name.GetAddressOf());
    Q_ASSERT_SUCCEEDED(hr);
    const QString btName = QString::fromWCharArray(WindowsGetStringRawBuffer(name.Get(), nullptr));
    hr = device->get_ClassOfDevice(&classOfDevice);
    Q_ASSERT_SUCCEEDED(hr);
    hr = classOfDevice->get_RawValue(&classOfDeviceInt);
    Q_ASSERT_SUCCEEDED(hr);
    IVectorView <Rfcomm::RfcommDeviceService *> *deviceServices;
    hr = device->get_RfcommServices(&deviceServices);
    Q_ASSERT_SUCCEEDED(hr);
    uint serviceCount;
    hr = deviceServices->get_Size(&serviceCount);
    Q_ASSERT_SUCCEEDED(hr);
    QList<QBluetoothUuid> uuids;
    for (uint i = 0; i < serviceCount; ++i) {
        ComPtr<Rfcomm::IRfcommDeviceService> service;
        hr = deviceServices->GetAt(i, &service);
        Q_ASSERT_SUCCEEDED(hr);
        ComPtr<Rfcomm::IRfcommServiceId> id;
        hr = service->get_ServiceId(&id);
        Q_ASSERT_SUCCEEDED(hr);
        GUID uuid;
        hr = id->get_Uuid(&uuid);
        Q_ASSERT_SUCCEEDED(hr);
        uuids.append(QBluetoothUuid(uuid));
    }

    qCDebug(QT_BT_WINRT) << "Discovered BT device: " << QString::number(address) << btName
        << "Num UUIDs" << uuids.count();

    QBluetoothDeviceInfo info(QBluetoothAddress(address), btName, classOfDeviceInt);
    info.setCoreConfigurations(QBluetoothDeviceInfo::BaseRateCoreConfiguration);
    info.setServiceUuids(uuids, QBluetoothDeviceInfo::DataIncomplete);
    info.setCached(true);

    QMetaObject::invokeMethod(this, "deviceFound", Qt::AutoConnection,
                              Q_ARG(QBluetoothDeviceInfo, info));
    if (!m_pendingPairedDevices && !(requestedModes & QBluetoothDeviceDiscoveryAgent::LowEnergyMethod))
        finishDiscovery();
    return S_OK;
}

HRESULT QWinRTBluetoothDeviceDiscoveryWorker::onPairedBluetoothLEDeviceFoundAsync(IAsyncOperation<BluetoothLEDevice *> *op, AsyncStatus status)
{
    --m_pendingPairedDevices;
    if (status != AsyncStatus::Completed)
        return S_OK;

    ComPtr<IBluetoothLEDevice> device;
    HRESULT hr;
    hr = op->GetResults(&device);
    Q_ASSERT_SUCCEEDED(hr);
    return onBluetoothLEDeviceFound(device, OmitPairingCheck);
}

HRESULT QWinRTBluetoothDeviceDiscoveryWorker::onBluetoothLEDeviceFoundAsync(IAsyncOperation<BluetoothLEDevice *> *op, AsyncStatus status)
{
    if (status != AsyncStatus::Completed)
        return S_OK;

    ComPtr<IBluetoothLEDevice> device;
    HRESULT hr;
    hr = op->GetResults(&device);
    Q_ASSERT_SUCCEEDED(hr);
    return onBluetoothLEDeviceFound(device, PairingCheck::CheckForPairing);
}

HRESULT QWinRTBluetoothDeviceDiscoveryWorker::onBluetoothLEDeviceFound(ComPtr<IBluetoothLEDevice> device, PairingCheck pairingCheck)
{
    if (!device) {
        qCDebug(QT_BT_WINRT) << "onBluetoothLEDeviceFound: No device given";
        return S_OK;
    }

    if (pairingCheck == CheckForPairing) {
        ComPtr<IBluetoothLEDevice2> device2;
        HRESULT hr = device.As(&device2);
        Q_ASSERT_SUCCEEDED(hr);
        ComPtr<IDeviceInformation> deviceInfo;
        hr = device2->get_DeviceInformation(&deviceInfo);
        Q_ASSERT_SUCCEEDED(hr);
        if (!deviceInfo) {
            qCDebug(QT_BT_WINRT) << "onBluetoothLEDeviceFound: Could not obtain device information";
            return S_OK;
        }
        ComPtr<IDeviceInformation2> deviceInfo2;
        hr = deviceInfo.As(&deviceInfo2);
        Q_ASSERT_SUCCEEDED(hr);
        ComPtr<IDeviceInformationPairing> pairing;
        hr = deviceInfo2->get_Pairing(&pairing);
        Q_ASSERT_SUCCEEDED(hr);
        boolean isPaired;
        hr = pairing->get_IsPaired(&isPaired);
        Q_ASSERT_SUCCEEDED(hr);
        // We need a paired device in order to be able to obtain its information
        if (!isPaired) {
            ComPtr<IAsyncOperation<DevicePairingResult *>> pairingOp;
            hr = pairing.Get()->PairAsync(&pairingOp);
            Q_ASSERT_SUCCEEDED(hr);
            pairingOp.Get()->put_Completed(
                Callback<IAsyncOperationCompletedHandler<DevicePairingResult *>>([device, this](IAsyncOperation<DevicePairingResult *> *op, AsyncStatus status) {
                if (status != AsyncStatus::Completed) {
                    qCDebug(QT_BT_WINRT) << "Could not pair device";
                    return S_OK;
                }

                ComPtr<IDevicePairingResult> result;
                op->GetResults(&result);

                DevicePairingResultStatus pairingStatus;
                result.Get()->get_Status(&pairingStatus);

                if (pairingStatus != DevicePairingResultStatus_Paired) {
                    qCDebug(QT_BT_WINRT) << "Could not pair device";
                    return S_OK;
                }

                onBluetoothLEDeviceFound(device, OmitPairingCheck);
                return S_OK;
            }).Get());
            return S_OK;
        }
    }

    UINT64 address;
    HString name;
    HRESULT hr = device->get_BluetoothAddress(&address);
    Q_ASSERT_SUCCEEDED(hr);
    hr = device->get_Name(name.GetAddressOf());
    Q_ASSERT_SUCCEEDED(hr);
    const QString btName = QString::fromWCharArray(WindowsGetStringRawBuffer(name.Get(), nullptr));
    IVectorView <GenericAttributeProfile::GattDeviceService *> *deviceServices;
    hr = device->get_GattServices(&deviceServices);
    Q_ASSERT_SUCCEEDED(hr);
    uint serviceCount;
    hr = deviceServices->get_Size(&serviceCount);
    Q_ASSERT_SUCCEEDED(hr);
    QList<QBluetoothUuid> uuids;
    for (uint i = 0; i < serviceCount; ++i) {
        ComPtr<GenericAttributeProfile::IGattDeviceService> service;
        hr = deviceServices->GetAt(i, &service);
        Q_ASSERT_SUCCEEDED(hr);
        ComPtr<Rfcomm::IRfcommServiceId> id;
        GUID uuid;
        hr = service->get_Uuid(&uuid);
        Q_ASSERT_SUCCEEDED(hr);
        uuids.append(QBluetoothUuid(uuid));
    }

    qCDebug(QT_BT_WINRT) << "Discovered BTLE device: " << QString::number(address) << btName
        << "Num UUIDs" << uuids.count();

    QBluetoothDeviceInfo info(QBluetoothAddress(address), btName, 0);
    info.setCoreConfigurations(QBluetoothDeviceInfo::LowEnergyCoreConfiguration);
    info.setServiceUuids(uuids, QBluetoothDeviceInfo::DataIncomplete);
    info.setCached(true);

    QMetaObject::invokeMethod(this, "deviceFound", Qt::AutoConnection,
                              Q_ARG(QBluetoothDeviceInfo, info));
    return S_OK;
}

QBluetoothDeviceDiscoveryAgentPrivate::QBluetoothDeviceDiscoveryAgentPrivate(
                const QBluetoothAddress &deviceAdapter,
                QBluetoothDeviceDiscoveryAgent *parent)

    :   inquiryType(QBluetoothDeviceDiscoveryAgent::GeneralUnlimitedInquiry),
        lastError(QBluetoothDeviceDiscoveryAgent::NoError),
        lowEnergySearchTimeout(25000),
        q_ptr(parent),
        leScanTimer(0)
{
    Q_UNUSED(deviceAdapter);
}

QBluetoothDeviceDiscoveryAgentPrivate::~QBluetoothDeviceDiscoveryAgentPrivate()
{
    disconnectAndClearWorker();
}

bool QBluetoothDeviceDiscoveryAgentPrivate::isActive() const
{
    return worker;
}

QBluetoothDeviceDiscoveryAgent::DiscoveryMethods QBluetoothDeviceDiscoveryAgent::supportedDiscoveryMethods()
{
    return (ClassicMethod | LowEnergyMethod);
}

void QBluetoothDeviceDiscoveryAgentPrivate::start(QBluetoothDeviceDiscoveryAgent::DiscoveryMethods methods)
{
    if (worker)
        return;

    worker = new QWinRTBluetoothDeviceDiscoveryWorker(methods);
    discoveredDevices.clear();
    connect(worker, &QWinRTBluetoothDeviceDiscoveryWorker::deviceFound,
            this, &QBluetoothDeviceDiscoveryAgentPrivate::registerDevice);
    connect(worker, &QWinRTBluetoothDeviceDiscoveryWorker::scanFinished,
            this, &QBluetoothDeviceDiscoveryAgentPrivate::onScanFinished);
    worker->start();

    if (lowEnergySearchTimeout > 0 && methods & QBluetoothDeviceDiscoveryAgent::LowEnergyMethod) { // otherwise no timeout and stop() required
        if (!leScanTimer) {
            leScanTimer = new QTimer(this);
            leScanTimer->setSingleShot(true);
        }
        connect(leScanTimer, &QTimer::timeout,
            worker, &QWinRTBluetoothDeviceDiscoveryWorker::finishDiscovery);
        leScanTimer->setInterval(lowEnergySearchTimeout);
        leScanTimer->start();
    }
}

void QBluetoothDeviceDiscoveryAgentPrivate::stop()
{
    Q_Q(QBluetoothDeviceDiscoveryAgent);
    if (worker) {
        worker->stop();
        disconnectAndClearWorker();
        emit q->canceled();
    }
    if (leScanTimer) {
        leScanTimer->stop();
        worker->deleteLater();
    }
}

void QBluetoothDeviceDiscoveryAgentPrivate::registerDevice(const QBluetoothDeviceInfo &info)
{
    Q_Q(QBluetoothDeviceDiscoveryAgent);

    for (QList<QBluetoothDeviceInfo>::iterator iter = discoveredDevices.begin();
        iter != discoveredDevices.end(); ++iter) {
        if (iter->address() == info.address()) {
            qCDebug(QT_BT_WINRT) << "Updating device" << iter->name() << iter->address();
            // merge service uuids
            QList<QBluetoothUuid> uuids = iter->serviceUuids();
            uuids.append(info.serviceUuids());
            const QSet<QBluetoothUuid> uuidSet = uuids.toSet();
            if (iter->serviceUuids().count() != uuidSet.count())
                iter->setServiceUuids(uuidSet.toList(), QBluetoothDeviceInfo::DataIncomplete);
            if (iter->coreConfigurations() != info.coreConfigurations())
                iter->setCoreConfigurations(QBluetoothDeviceInfo::BaseRateAndLowEnergyCoreConfiguration);
            return;
        }
    }

    discoveredDevices << info;
    emit q->deviceDiscovered(info);
}

void QBluetoothDeviceDiscoveryAgentPrivate::onScanFinished()
{
    Q_Q(QBluetoothDeviceDiscoveryAgent);
    disconnectAndClearWorker();
    emit q->finished();
}

void QBluetoothDeviceDiscoveryAgentPrivate::disconnectAndClearWorker()
{
    Q_Q(QBluetoothDeviceDiscoveryAgent);
    if (!worker)
        return;

    disconnect(worker, &QWinRTBluetoothDeviceDiscoveryWorker::scanFinished,
        this, &QBluetoothDeviceDiscoveryAgentPrivate::onScanFinished);
    disconnect(worker, &QWinRTBluetoothDeviceDiscoveryWorker::deviceFound,
        q, &QBluetoothDeviceDiscoveryAgent::deviceDiscovered);
    if (leScanTimer) {
        disconnect(leScanTimer, &QTimer::timeout,
            worker, &QWinRTBluetoothDeviceDiscoveryWorker::finishDiscovery);
    }
    worker.clear();
}

QT_END_NAMESPACE

#include <qbluetoothdevicediscoveryagent_winrt.moc>