nymea/libguh/devicemanager.cpp

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/*!
    \class DeviceManager
    \brief The main entry point when interacting with \l{Device}{Devices}

    \ingroup devices
    \inmodule libguh

    The DeviceManager holds all information about supported and configured Devices in the system.

    It is also responsible for loading Plugins and managing common hardware resources between
    \l{DevicePlugin}{device plugins}.

*/

/*!
    \enum DeviceManager::HardwareResource

    This enum type specifies hardware resources which can be requested by \l{DevicePlugin}{DevicePlugins}.

    \value HardwareResourceNone
        No Resource required.
    \value HardwareResourceRadio433
        Refers to the 433 MHz radio.
    \value HardwareResourceRadio868
        Refers to the 868 MHz radio.
    \value HardwareResourceTimer
        Refers to the global timer managed by the \l{DeviceManager}. Plugins should not create their own timers, but rather request the global timer using the hardware resources.
*/

/*!
    \enum DeviceManager::DeviceError

    This enum type specifies the errors that can happen when working with \l{Device}{Devices}.

    \value DeviceErrorNoError
        No Error. Everything went fine.
    \value DeviceErrorDeviceNotFound
        Couldn't find a \l{Device} for the given id.
    \value DeviceErrorDeviceClassNotFound
        Couldn't find a \l{DeviceClass} for the given id.
    \value DeviceErrorActionTypeNotFound
        Couldn't find the \l{ActionType} for the given id.
    \value DeviceErrorMissingParameter
        Parameters do not comply to the template.
    \value DeviceErrorPluginNotFound
        Couldn't find the Plugin for the given id.
    \value DeviceErrorSetupFailed
        Error setting up the \{Device}. It will not be functional.
*/

/*! \fn void DeviceManager::emitEvent(const Event &event)
    The DeviceManager will emit a \l{Event} described in \a event whenever a Device
    creates one. Normally only \l{GuhCore} should connect to this and execute actions
    after checking back with the \{RulesEngine}. Exceptions might be monitoring interfaces
    or similar, but you should never directly react to this in a \l{DevicePlugin}.
*/

#include "devicemanager.h"

#include "hardware/radio433.h"

#include "plugin/device.h"
#include "plugin/deviceclass.h"
#include "plugin/deviceplugin.h"

#include <QPluginLoader>
#include <QtPlugin>
#include <QDebug>
#include <QSettings>
#include <QStringList>

/*! Constructs the DeviceManager with the given \a parent. There should only be one DeviceManager in the system created by \l{GuhCore}.
    Use \c GuhCore::instance()->deviceManager() instead to access the DeviceManager.
*/
DeviceManager::DeviceManager(QObject *parent) :
    QObject(parent),
    m_radio433(0)
{
    m_pluginTimer.setInterval(15000);
    connect(&m_pluginTimer, &QTimer::timeout, this, &DeviceManager::timerEvent);

    // Give hardware a chance to start up before loading plugins etc.
    QMetaObject::invokeMethod(this, "loadPlugins", Qt::QueuedConnection);
    QMetaObject::invokeMethod(this, "loadConfiguredDevices", Qt::QueuedConnection);
    QMetaObject::invokeMethod(this, "createNewAutoDevices", Qt::QueuedConnection);
    // Make sure this is always emitted after plugins and devices are loaded
    QMetaObject::invokeMethod(this, "loaded", Qt::QueuedConnection);
}

DeviceManager::~DeviceManager()
{
    qDebug() << "Shutting down DeviceManager";
    foreach (DevicePlugin *plugin, m_devicePlugins) {
        delete plugin;
    }
}

/*! Returns all the \l{DevicePlugin}{DevicePlugins} loaded in the system. */
QList<DevicePlugin *> DeviceManager::plugins() const
{
    return m_devicePlugins.values();
}

/*! Returns the \{DevicePlugin} with the given \a id. Null if the id couldn't be found. */
DevicePlugin *DeviceManager::plugin(const PluginId &id) const
{
    return m_devicePlugins.value(id);
}

QPair<DeviceManager::DeviceError, QString> DeviceManager::setPluginConfig(const PluginId &pluginId, const QList<Param> &pluginConfig)
{
    DevicePlugin *plugin = m_devicePlugins.value(pluginId);
    if (!plugin) {
        return report(DeviceErrorPluginNotFound, QString("No plugin with id % 1").arg(pluginId.toString()));
    }
    QPair<DeviceError, QString> result = plugin->setConfiguration(pluginConfig);
    if (result.first != DeviceErrorNoError) {
        return result;
    }
    QSettings settings;
    settings.beginGroup("PluginConfig");
    settings.beginGroup(plugin->pluginId().toString());
    foreach (const Param &param, pluginConfig) {
        settings.setValue(param.name(), param.value());
    }
    settings.endGroup();
    settings.endGroup();
    createNewAutoDevices();
    return result;
}

QList<Vendor> DeviceManager::supportedVendors() const
{
    return m_supportedVendors.values();
}

/*! Returns all the supported \l{DeviceClass}{DeviceClasses} by all \l{DevicePlugin}{DevicePlugins} loaded in the system.
    Optionally filtered by vendorId. */
QList<DeviceClass> DeviceManager::supportedDevices(const VendorId &vendorId) const
{
    QList<DeviceClass> ret;
    if (vendorId.isNull()) {
        ret = m_supportedDevices.values();
    } else {
        foreach (const DeviceClassId &deviceClassId, m_vendorDeviceMap.value(vendorId)) {
            ret.append(m_supportedDevices.value(deviceClassId));
        }
    }
    return ret;
}

DeviceManager::DeviceError DeviceManager::discoverDevices(const DeviceClassId &deviceClassId, const QVariantMap &params) const
{
    DeviceClass deviceClass = findDeviceClass(deviceClassId);
    if (!deviceClass.isValid()) {
        return DeviceManager::DeviceErrorDeviceClassNotFound;
    }
    if (deviceClass.createMethod() != DeviceClass::CreateMethodDiscovery) {
        return DeviceManager::DeviceErrorCreationMethodNotSupported;
    }
    DevicePlugin *plugin = m_devicePlugins.value(deviceClass.pluginId());
    if (!plugin) {
        return DeviceManager::DeviceErrorPluginNotFound;
    }
    return plugin->discoverDevices(deviceClassId, params);
}

/*! Add a new configured device for the given \l{DeviceClass} and the given parameters.
 \a deviceClassId must refer to an existing \{DeviceClass} and \a params must match the parameter description in the \l{DeviceClass}.
    Optionally you can supply an id yourself if you must keep track of the added device. If you don't supply it, a new one will
    be generated. Only devices with \l{DeviceClass::CreateMethodUser} can be created using this method.
    Returns \l{DeviceManager::DeviceError} to inform about the result.
    \list
    \li DeviceManager::DeviceErrorNoError: The device has been created, set up and added to the list of configured devices correctly.
    \li DeviceManager::DeviceErrorAsync: The device has been created, but the setup requires async operations. For instance a network query.
    In this case, you should wait for the \l{deviceSetupFinished()} signal to get the final results.
    \li DeviceManager::DeviceErrorCreateMethodNotSupported: The deviceId you've chosen refers to a DeviceClass which can't be created manually.
    \li DeviceManager::DeviceErrorDeviceClassNotFound: The given deviceClassId can't be found in the list of supported devices.
    \li DeviceManager::DeviceErrorMissingParameter: The given params do not suffice for the given deviceClassId.
    \li DeviceManager::DeviceErrorDeviceParameterError: The given params can't be matched to the ParamTypes for the given deviceClassId.
    \li DeviceManager::DeviceErrorDuplicateUuid: The given uuid already exists.
    \li DeviceManager::DeviceErrorPluginNotFound: Couldn't find a plugin that handles this deviceClassId.
    \li DeviceManager::DeviceErrorSetupFailed: The device couldn't be set up. Even though you supplied all the parameters correctly, something
    went wrong during setup. Reasons may be a hardware/network failure, wrong username/password or similar, depending on what the device plugin
    needs to do in order to set up the device.
*/
QPair<DeviceManager::DeviceError, QString> DeviceManager::addConfiguredDevice(const DeviceClassId &deviceClassId, const QList<Param> &params, const DeviceId id)
{
    DeviceClass deviceClass = findDeviceClass(deviceClassId);
    if (!deviceClass.isValid()) {
        qWarning() << "cannot find a device class with id" << deviceClassId;
        return qMakePair<DeviceError, QString>(DeviceErrorDeviceClassNotFound, deviceClassId.toString());
    }
    if (deviceClass.createMethod() == DeviceClass::CreateMethodUser) {
        return addConfiguredDeviceInternal(deviceClassId, params, id);
    }
    return qMakePair<DeviceError, QString>(DeviceErrorCreationMethodNotSupported, "CreateMethodUser");
}

QPair<DeviceManager::DeviceError, QString> DeviceManager::addConfiguredDevice(const DeviceClassId &deviceClassId, const DeviceDescriptorId &deviceDescriptorId, const DeviceId &deviceId)
{
    DeviceClass deviceClass = findDeviceClass(deviceClassId);
    if (!deviceClass.isValid()) {
        return qMakePair<DeviceError, QString>(DeviceErrorDeviceClassNotFound, deviceClassId.toString());
    }
    if (deviceClass.createMethod() != DeviceClass::CreateMethodDiscovery) {
        return qMakePair<DeviceError, QString>(DeviceErrorCreationMethodNotSupported, "CreateMethodDiscovery");
    }

    DeviceDescriptor descriptor = m_discoveredDevices.take(deviceClassId).take(deviceDescriptorId);
    if (!descriptor.isValid()) {
        return qMakePair<DeviceError>(DeviceErrorDeviceDescriptorNotFound, deviceDescriptorId.toString());
    }

    return addConfiguredDeviceInternal(deviceClassId, descriptor.params(), deviceId);
}

QPair<DeviceManager::DeviceError, QString> DeviceManager::addConfiguredDeviceInternal(const DeviceClassId &deviceClassId, const QList<Param> &params, const DeviceId id)
{
    DeviceClass deviceClass = findDeviceClass(deviceClassId);
    if (deviceClass.id().isNull()) {
        qWarning() << "cannot find a device class with id" << deviceClassId;
        return qMakePair<DeviceError, QString>(DeviceErrorDeviceClassNotFound, deviceClassId.toString());
    }

    QPair<DeviceError, QString> result = verifyParams(deviceClass.params(), params);
    if (result.first != DeviceErrorNoError) {
        return result;
    }

    foreach(Device *device, m_configuredDevices) {
        if (device->id() == id) {
            return qMakePair<DeviceError, QString>(DeviceErrorDuplicateUuid, id.toString());
        }
    }

    DevicePlugin *plugin = m_devicePlugins.value(deviceClass.pluginId());
    if (!plugin) {
        qWarning() << "Cannot find a plugin for this device class!";
        return qMakePair<DeviceError, QString>(DeviceErrorPluginNotFound, deviceClass.pluginId().toString());
    }

    Device *device = new Device(plugin->pluginId(), id, deviceClassId, this);
    device->setName(deviceClass.name());
    device->setParams(params);

    QPair<DeviceSetupStatus, QString> status = setupDevice(device);
    switch (status.first) {
    case DeviceSetupStatusFailure:
        qWarning() << "Device setup failed. Not adding device to system.";
        delete device;
        return qMakePair<DeviceError, QString>(DeviceErrorSetupFailed, QString("Device setup failed: %1").arg(status.second));
    case DeviceSetupStatusAsync:
        return qMakePair<DeviceError, QString>(DeviceErrorAsync, "");
    case DeviceSetupStatusSuccess:
        qDebug() << "Device setup complete.";
        break;
    }

    m_configuredDevices.append(device);
    storeConfiguredDevices();

    return qMakePair<DeviceError, QString>(DeviceErrorNoError, QString());
}

QPair<DeviceManager::DeviceError, QString> DeviceManager::removeConfiguredDevice(const DeviceId &deviceId)
{
    Device *device = findConfiguredDevice(deviceId);
    if (!device) {
        return qMakePair<DeviceError, QString>(DeviceErrorDeviceNotFound, deviceId.toString());
    }

    m_configuredDevices.removeAll(device);
    m_devicePlugins.value(device->pluginId())->deviceRemoved(device);

    m_pluginTimerUsers.removeAll(device);
    if (m_pluginTimerUsers.isEmpty()) {
        m_pluginTimer.stop();
    }

    device->deleteLater();

    QSettings settings;
    settings.beginGroup("DeviceConfig");
    settings.beginGroup(deviceId.toString());
    settings.remove("");
    settings.endGroup();

    return qMakePair<DeviceError, QString>(DeviceErrorNoError, QString());
}

/*! Returns the \l{Device} with the given \a id. Null if the id couldn't be found. */
Device *DeviceManager::findConfiguredDevice(const DeviceId &id) const
{
    foreach (Device *device, m_configuredDevices) {
        if (device->id() == id) {
            return device;
        }
    }
    return 0;
}

/*! Returns all configured \{Device}{Devices} in the system. */
QList<Device *> DeviceManager::configuredDevices() const
{
    return m_configuredDevices;
}

/*! Returns all \l{Device}{Devices} matching the \l{DeviceClass} referred by \a deviceClassId. */
QList<Device *> DeviceManager::findConfiguredDevices(const DeviceClassId &deviceClassId) const
{
    QList<Device*> ret;
    foreach (Device *device, m_configuredDevices) {
        if (device->deviceClassId() == deviceClassId) {
            ret << device;
        }
    }
    return ret;
}

/*! For conveninece, this returns the \{DeviceClass} with the id given by \a deviceClassId.
    Note: The returned DeviceClass may be invalid.*/
DeviceClass DeviceManager::findDeviceClass(const DeviceClassId &deviceClassId) const
{
    foreach (const DeviceClass &deviceClass, m_supportedDevices) {
        if (deviceClass.id() == deviceClassId) {
            return deviceClass;
        }
    }
    return DeviceClass();
}

/*! Execute the given \{Action}.
    This will find the \l{Device} \a action refers to in \l{Action::deviceId()} and
    its \l{DevicePlugin}. Then will dispatch the execution to the \l{DevicePlugin}.*/
QPair<DeviceManager::DeviceError, QString> DeviceManager::executeAction(const Action &action)
{
    foreach (Device *device, m_configuredDevices) {
        if (action.deviceId() == device->id()) {
            // found device

            // Make sure this device has an action type with this id
            DeviceClass deviceClass = findDeviceClass(device->deviceClassId());
            bool found = false;
            foreach (const ActionType &actionType, deviceClass.actions()) {
                if (actionType.id() == action.actionTypeId()) {
                    QPair<DeviceError, QString> paramCheck = verifyParams(actionType.parameters(), action.params());
                    if (paramCheck.first != DeviceErrorNoError) {
                        return paramCheck;
                    }

                    found = true;
                    continue;
                }
            }
            if (!found) {
                return qMakePair<DeviceError, QString>(DeviceErrorActionTypeNotFound, action.actionTypeId().toString());
            }

            return m_devicePlugins.value(device->pluginId())->executeAction(device, action);
        }
    }
    return qMakePair<DeviceError, QString>(DeviceErrorDeviceNotFound, action.deviceId().toString());
}

void DeviceManager::loadPlugins()
{
    foreach (QObject *pluginObject, QPluginLoader::staticInstances()) {
        DevicePlugin *pluginIface = qobject_cast<DevicePlugin*>(pluginObject);
        if (pluginIface) {
            qDebug() << "*** Loaded plugin" << pluginIface->pluginName();
            pluginIface->initPlugin(this);
            foreach (const Vendor &vendor, pluginIface->supportedVendors()) {
                qDebug() << "* Loaded vendor:" << vendor.name();
                if (m_supportedVendors.contains(vendor.id())) {
                    qWarning() << "! Duplicate vendor. Ignoring vendor" << vendor.name();
                    continue;
                }
                m_supportedVendors.insert(vendor.id(), vendor);
            }

            foreach (const DeviceClass &deviceClass, pluginIface->supportedDevices()) {
                if (!m_supportedVendors.contains(deviceClass.vendorId())) {
                    qWarning() << "! Vendor not found. Ignoring device. VendorId:" << deviceClass.vendorId() << "DeviceClass:" << deviceClass.name() << deviceClass.id();
                    continue;
                }
                m_vendorDeviceMap[deviceClass.vendorId()].append(deviceClass.id());
                m_supportedDevices.insert(deviceClass.id(), deviceClass);
                qDebug() << "* Loaded device class:" << deviceClass.name();
            }
            QSettings settings;
            settings.beginGroup("PluginConfig");
            QList<Param> params;
            if (settings.childGroups().contains(pluginIface->pluginId().toString())) {
                settings.beginGroup(pluginIface->pluginId().toString());
                foreach (const QString &paramName, settings.allKeys()) {
                    Param param(paramName, settings.value(paramName));
                    params.append(param);
                }
                settings.endGroup();
            } else if (pluginIface->configurationDescription().count() > 0){
                // plugin requires config but none stored. Init with defaults
                foreach (const ParamType &paramType, pluginIface->configurationDescription()) {
                    Param param(paramType.name(), paramType.defaultValue());
                    params.append(param);
                }
            }
            settings.endGroup();
            QPair<DeviceError, QString> status = pluginIface->setConfiguration(params);
            if (status.first != DeviceErrorNoError) {
                qWarning() << "Error setting params to plugin. Broken configuration?" << status.second;
            }

            m_devicePlugins.insert(pluginIface->pluginId(), pluginIface);
            connect(pluginIface, &DevicePlugin::emitEvent, this, &DeviceManager::eventTriggered);
            connect(pluginIface, &DevicePlugin::devicesDiscovered, this, &DeviceManager::slotDevicesDiscovered);
            connect(pluginIface, &DevicePlugin::deviceSetupFinished, this, &DeviceManager::slotDeviceSetupFinished);
            connect(pluginIface, &DevicePlugin::actionExecutionFinished, this, &DeviceManager::actionExecutionFinished);
        }
    }
}

void DeviceManager::loadConfiguredDevices()
{
    QSettings settings;
    settings.beginGroup("DeviceConfig");
    qDebug() << "loading devices from" << settings.fileName();
    foreach (const QString &idString, settings.childGroups()) {
        settings.beginGroup(idString);
        Device *device = new Device(PluginId(settings.value("pluginid").toString()), DeviceId(idString), DeviceClassId(settings.value("deviceClassId").toString()), this);
        device->setName(settings.value("devicename").toString());

        QList<Param> params;
        settings.beginGroup("Params");
        foreach (QString paramNameString, settings.allKeys()) {
            Param param(paramNameString);
            param.setValue(settings.value(paramNameString));
            params.append(param);
        }
        device->setParams(params);
        settings.endGroup();
        settings.endGroup();

        qDebug() << "found stored device" << device->id() << device->name() << device->deviceClassId() << device->pluginId();

        // We always add the device to the list in this case. If its in the storedDevices
        // it means that it was working at some point so lets still add it as there might
        // be rules associated with this device. Device::setupCompleted() will be false.
        setupDevice(device);
        m_configuredDevices.append(device);
    }
    settings.endGroup();
}

void DeviceManager::storeConfiguredDevices()
{
    QSettings settings;
    settings.beginGroup("DeviceConfig");
    foreach (Device *device, m_configuredDevices) {
        settings.beginGroup(device->id().toString());
        settings.setValue("devicename", device->name());
        settings.setValue("deviceClassId", device->deviceClassId().toString());
        settings.setValue("pluginid", device->pluginId().toString());
        settings.beginGroup("Params");
        foreach (const Param &param, device->params()) {
            settings.setValue(param.name(), param.value());
        }
        settings.endGroup();
        settings.endGroup();
    }
    settings.endGroup();
}

void DeviceManager::createNewAutoDevices()
{
    bool haveNewDevice = false;
    foreach (const DeviceClass &deviceClass, m_supportedDevices) {
        if (deviceClass.createMethod() != DeviceClass::CreateMethodAuto) {
            continue;
        }

        qDebug() << "found auto device class" << deviceClass.name();
        DevicePlugin *plugin = m_devicePlugins.value(deviceClass.pluginId());
        bool success = false;
        do {
            QList<Device*> loadedDevices = findConfiguredDevices(deviceClass.id());
            Device *device = new Device(plugin->pluginId(), DeviceId::createDeviceId(), deviceClass.id());
            success = plugin->configureAutoDevice(loadedDevices, device);
            if (success) {
                qDebug() << "New device detected for" << deviceClass.name() << device->name();
                haveNewDevice = true;

                // We'll always add auto devices, even if setup fails in order to keep track of them.
                QPair<DeviceSetupStatus, QString> setupStatus = setupDevice(device);
                m_configuredDevices.append(device);
            } else {
                qDebug() << "No newly detected devices for" << deviceClass.name();
                delete device;
            }
        } while (success);
    }
    if (haveNewDevice) {
        storeConfiguredDevices();
    }
}

void DeviceManager::slotDevicesDiscovered(const DeviceClassId &deviceClassId, const QList<DeviceDescriptor> deviceDescriptors)
{
    QHash<DeviceDescriptorId, DeviceDescriptor> descriptorHash;
    foreach (const DeviceDescriptor &descriptor, deviceDescriptors) {
        descriptorHash.insert(descriptor.id(), descriptor);
    }
    m_discoveredDevices[deviceClassId] = descriptorHash;
    emit devicesDiscovered(deviceClassId, deviceDescriptors);
}

void DeviceManager::slotDeviceSetupFinished(Device *device, DeviceManager::DeviceSetupStatus status, const QString &errorMessage)
{
    Q_ASSERT_X(device, "DeviceManager", "Device must be a valid pointer.");
    if (!device) {
        qWarning() << "Received deviceSetupFinished for an invalid device... ignoring...";
        return;
    }

    if (device->setupComplete()) {
        qWarning() << "Received a deviceSetupFinished event, but this Device has been set up before... ignoring...";
        return;
    }

    Q_ASSERT_X(status != DeviceSetupStatusAsync, "DeviceManager", "Bad plugin implementation. You should not emit deviceSetupFinished with status DeviceSetupStatusAsync.");
    if (status == DeviceSetupStatusAsync) {
        qWarning() << "Bad plugin implementation. Received a deviceSetupFinished event with status Async... ignoring...";
        return;
    }

    if (status == DeviceSetupStatusFailure) {
        if (m_configuredDevices.contains(device)) {
            qWarning() << QString("Error in device setup. Device %1 (%2) will not be functional.").arg(device->name()).arg(device->id().toString());
            emit deviceSetupFinished(device, DeviceError::DeviceErrorSetupFailed, QString("Device setup failed: %1").arg(errorMessage));
            return;
        } else {
            qWarning() << QString("Error in device setup. Device %1 (%2) will not be added to the configured devices.").arg(device->name()).arg(device->id().toString());
            emit deviceSetupFinished(device, DeviceError::DeviceErrorSetupFailed, QString("Device setup failed: %1").arg(errorMessage));
            return;
        }
    }

    // A device might be in here already if loaded from storedDevices. If it's not in the configuredDevices,
    // lets add it now.
    if (!m_configuredDevices.contains(device)) {
        m_configuredDevices.append(device);
        storeConfiguredDevices();
    }

    DevicePlugin *plugin = m_devicePlugins.value(device->pluginId());
    if (plugin->requiredHardware().testFlag(HardwareResourceTimer)) {
        if (!m_pluginTimer.isActive()) {
            m_pluginTimer.start();
            // Additionally fire off one event to initialize stuff
            QTimer::singleShot(0, this, SLOT(timerEvent()));
        }
        m_pluginTimerUsers.append(device);
    }

    connect(device, SIGNAL(stateValueChanged(QUuid,QVariant)), this, SLOT(slotDeviceStateValueChanged(QUuid,QVariant)));

    device->setupCompleted();
    emit deviceSetupFinished(device, DeviceManager::DeviceErrorNoError, QString());
}

void DeviceManager::slotDeviceStateValueChanged(const QUuid &stateTypeId, const QVariant &value)
{
    Device *device = qobject_cast<Device*>(sender());
    if (!device) {
        return;
    }
    emit deviceStateChanged(device, stateTypeId, value);
}

void DeviceManager::radio433SignalReceived(QList<int> rawData)
{
    foreach (Device *device, m_configuredDevices) {
        DeviceClass deviceClass = m_supportedDevices.value(device->deviceClassId());
        DevicePlugin *plugin = m_devicePlugins.value(deviceClass.pluginId());
        if (plugin->requiredHardware().testFlag(HardwareResourceRadio433)) {
            plugin->radioData(rawData);
        }
    }
}

void DeviceManager::timerEvent()
{
    foreach (Device *device, m_configuredDevices) {
        DeviceClass deviceClass = m_supportedDevices.value(device->deviceClassId());
        DevicePlugin *plugin = m_devicePlugins.value(deviceClass.pluginId());
        if (plugin && plugin->requiredHardware().testFlag(HardwareResourceTimer)) {
            plugin->guhTimer();
        }
    }
}

QPair<DeviceManager::DeviceSetupStatus,QString> DeviceManager::setupDevice(Device *device)
{
    DeviceClass deviceClass = findDeviceClass(device->deviceClassId());
    DevicePlugin *plugin = m_devicePlugins.value(deviceClass.pluginId());

    if (!plugin) {
        return qMakePair<DeviceSetupStatus, QString>(DeviceSetupStatusFailure, "Can't find a plugin for this device");
    }

    QList<State> states;
    foreach (const StateType &stateType, deviceClass.states()) {
        State state(stateType.id(), device->id());
        state.setValue(stateType.defaultValue());
        states.append(state);
    }
    device->setStates(states);

    if (plugin->requiredHardware().testFlag(HardwareResourceRadio433)) {
        if (!m_radio433) {
            m_radio433 = new Radio433();
            connect(m_radio433, &Radio433::dataReceived, this, &DeviceManager::radio433SignalReceived);
        }
    }

    QPair<DeviceSetupStatus, QString> status = plugin->setupDevice(device);
    if (status.first != DeviceSetupStatusSuccess) {
        return status;
    }

    if (plugin->requiredHardware().testFlag(HardwareResourceTimer)) {
        if (!m_pluginTimer.isActive()) {
            m_pluginTimer.start();
            // Additionally fire off one event to initialize stuff
            QTimer::singleShot(0, this, SLOT(timerEvent()));
        }
        m_pluginTimerUsers.append(device);
    }

    connect(device, SIGNAL(stateValueChanged(QUuid,QVariant)), this, SLOT(slotDeviceStateValueChanged(QUuid,QVariant)));

    device->setupCompleted();
    return status;
}

QPair<DeviceManager::DeviceError, QString> DeviceManager::verifyParams(const QList<ParamType> paramTypes, const QList<Param> &params, bool requireAll)
{
    foreach (const Param &param, params) {
        QPair<DeviceManager::DeviceError, QString> result = verifyParam(paramTypes, param);
        if (result.first != DeviceErrorNoError) {
            return result;
        }
    }
    if (!requireAll) {
        return report();
    }
    foreach (const ParamType &paramType, paramTypes) {
        bool found = false;
        foreach (const Param &param, params) {
            if (paramType.name() == param.name()) {
                found = true;
            }
        }
        if (!found) {
            return report(DeviceErrorMissingParameter, QString("Missing parameter: %1").arg(paramType.name()));
        }
    }
    return report();
}

QPair<DeviceManager::DeviceError, QString> DeviceManager::verifyParam(const QList<ParamType> paramTypes, const Param &param)
{
    foreach (const ParamType &paramType, paramTypes) {
        if (paramType.name() == param.name()) {
            return verifyParam(paramType, param);
        }
    }
    return report(DeviceErrorInvalidParameter, QString("Parameter %1 not in ParamTypes list").arg(param.name()));
}

QPair<DeviceManager::DeviceError, QString> DeviceManager::verifyParam(const ParamType &paramType, const Param &param)
{
    if (paramType.name() == param.name()) {
        if (!param.value().canConvert(paramType.type())) {
            return report(DeviceManager::DeviceErrorInvalidParameter, QString("Wrong parameter type for param %1. Got: %2. Expected %3.")
                          .arg(param.name()).arg(param.value().toString()).arg(QVariant::typeToName(paramType.type())));
        }

        if (paramType.maxValue().isValid() && param.value() > paramType.maxValue()) {
            return report(DeviceManager::DeviceErrorInvalidParameter, QString("Value out of range for param %1. Got: %2. Max: %3.")
                          .arg(param.name()).arg(param.value().toString()).arg(paramType.maxValue().toString()));
        }
        if (paramType.minValue().isValid() && param.value() < paramType.maxValue()) {
            return report(DeviceManager::DeviceErrorInvalidParameter, QString("Value out of range for param %1. Got: %2. Min: %3.")
                          .arg(param.name()).arg(param.value().toString()).arg(paramType.minValue().toString()));
        }
        return report();
    }
    return report(DeviceErrorInvalidParameter, QString("Parameter name %1 does not match with ParamType name %2")
                  .arg(param.name()).arg(paramType.name()));
}

QPair<DeviceManager::DeviceError, QString> DeviceManager::report(DeviceManager::DeviceError error, const QString &message)
{
    return qMakePair<DeviceManager::DeviceError, QString>(error, message);
}