kdeconnect-kde/core/device.cpp

493 lines
15 KiB
C++

/**
* SPDX-FileCopyrightText: 2013 Albert Vaca <albertvaka@gmail.com>
*
* SPDX-License-Identifier: GPL-2.0-only OR GPL-3.0-only OR LicenseRef-KDE-Accepted-GPL
*/
#include "device.h"
#include <QSet>
#include <QSslCertificate>
#include <QSslKey>
#include <QVector>
#include <KConfigGroup>
#include <KLocalizedString>
#include <KSharedConfig>
#include "backends/devicelink.h"
#include "backends/lan/landevicelink.h"
#include "backends/linkprovider.h"
#include "core_debug.h"
#include "daemon.h"
#include "dbushelper.h"
#include "kdeconnectconfig.h"
#include "kdeconnectplugin.h"
#include "networkpacket.h"
#include "pluginloader.h"
class Device::DevicePrivate
{
public:
DevicePrivate(const DeviceInfo &deviceInfo)
: m_deviceInfo(deviceInfo)
{
}
~DevicePrivate()
{
qDeleteAll(m_deviceLinks);
m_deviceLinks.clear();
}
DeviceInfo m_deviceInfo;
QVector<DeviceLink *> m_deviceLinks;
QHash<QString, KdeConnectPlugin *> m_plugins;
QMultiMap<QString, KdeConnectPlugin *> m_pluginsByIncomingCapability;
QSet<QString> m_supportedPlugins;
PairingHandler *m_pairingHandler;
};
static void warn(const QString &info)
{
qWarning() << "Device pairing error" << info;
}
Device::Device(QObject *parent, const QString &id)
: QObject(parent)
{
DeviceInfo info = KdeConnectConfig::instance().getTrustedDevice(id);
d = new Device::DevicePrivate(info);
d->m_pairingHandler = new PairingHandler(this, PairState::Paired);
const auto supported = PluginLoader::instance()->getPluginList();
d->m_supportedPlugins = QSet(supported.begin(), supported.end()); // Assume every plugin is supported until we get the capabilities
// Register in bus
QDBusConnection::sessionBus().registerObject(dbusPath(), this, QDBusConnection::ExportScriptableContents | QDBusConnection::ExportAdaptors);
connect(d->m_pairingHandler, &PairingHandler::incomingPairRequest, this, &Device::pairingHandler_incomingPairRequest);
connect(d->m_pairingHandler, &PairingHandler::pairingFailed, this, &Device::pairingHandler_pairingFailed);
connect(d->m_pairingHandler, &PairingHandler::pairingSuccessful, this, &Device::pairingHandler_pairingSuccessful);
connect(d->m_pairingHandler, &PairingHandler::unpaired, this, &Device::pairingHandler_unpaired);
}
Device::Device(QObject *parent, DeviceLink *dl)
: QObject(parent)
{
d = new Device::DevicePrivate(dl->deviceInfo());
d->m_pairingHandler = new PairingHandler(this, PairState::NotPaired);
const auto supported = PluginLoader::instance()->getPluginList();
d->m_supportedPlugins = QSet(supported.begin(), supported.end()); // Assume every plugin is supported until we get the capabilities
addLink(dl);
// Register in bus
QDBusConnection::sessionBus().registerObject(dbusPath(), this, QDBusConnection::ExportScriptableContents | QDBusConnection::ExportAdaptors);
connect(this, &Device::pairingFailed, this, &warn);
connect(this, &Device::reachableChanged, this, &Device::statusIconNameChanged);
connect(this, &Device::pairStateChanged, this, &Device::statusIconNameChanged);
connect(d->m_pairingHandler, &PairingHandler::incomingPairRequest, this, &Device::pairingHandler_incomingPairRequest);
connect(d->m_pairingHandler, &PairingHandler::pairingFailed, this, &Device::pairingHandler_pairingFailed);
connect(d->m_pairingHandler, &PairingHandler::pairingSuccessful, this, &Device::pairingHandler_pairingSuccessful);
connect(d->m_pairingHandler, &PairingHandler::unpaired, this, &Device::pairingHandler_unpaired);
if (protocolVersion() != NetworkPacket::s_protocolVersion) {
qCWarning(KDECONNECT_CORE) << name() << " uses a different protocol version" << protocolVersion() << "expected" << NetworkPacket::s_protocolVersion;
}
}
Device::~Device()
{
delete d;
}
QString Device::id() const
{
return d->m_deviceInfo.id;
}
QString Device::name() const
{
return d->m_deviceInfo.name;
}
DeviceType Device::type() const
{
return d->m_deviceInfo.type;
}
bool Device::isReachable() const
{
return !d->m_deviceLinks.isEmpty();
}
int Device::protocolVersion()
{
return d->m_deviceInfo.protocolVersion;
}
QStringList Device::supportedPlugins() const
{
return QList(d->m_supportedPlugins.cbegin(), d->m_supportedPlugins.cend());
}
bool Device::hasPlugin(const QString &name) const
{
return d->m_plugins.contains(name);
}
QStringList Device::loadedPlugins() const
{
return d->m_plugins.keys();
}
void Device::reloadPlugins()
{
qCDebug(KDECONNECT_CORE) << name() << "- reload plugins";
QHash<QString, KdeConnectPlugin *> newPluginMap, oldPluginMap = d->m_plugins;
QMultiMap<QString, KdeConnectPlugin *> newPluginsByIncomingCapability;
if (isPaired() && isReachable()) { // Do not load any plugin for unpaired devices, nor useless loading them for unreachable devices
PluginLoader *loader = PluginLoader::instance();
for (const QString &pluginName : qAsConst(d->m_supportedPlugins)) {
const KPluginMetaData service = loader->getPluginInfo(pluginName);
const bool pluginEnabled = isPluginEnabled(pluginName);
const QStringList incomingCapabilities = service.rawData().value(QStringLiteral("X-KdeConnect-SupportedPacketType")).toVariant().toStringList();
if (pluginEnabled) {
KdeConnectPlugin *plugin = d->m_plugins.take(pluginName);
if (!plugin) {
plugin = loader->instantiatePluginForDevice(pluginName, this);
}
Q_ASSERT(plugin);
for (const QString &interface : incomingCapabilities) {
newPluginsByIncomingCapability.insert(interface, plugin);
}
newPluginMap[pluginName] = plugin;
plugin->connected();
}
}
}
const bool differentPlugins = oldPluginMap != newPluginMap;
// Erase all left plugins in the original map (meaning that we don't want
// them anymore, otherwise they would have been moved to the newPluginMap)
qDeleteAll(d->m_plugins);
d->m_plugins = newPluginMap;
d->m_pluginsByIncomingCapability = newPluginsByIncomingCapability;
// Recreate dbus paths for all plugins (new and existing)
QDBusConnection bus = QDBusConnection::sessionBus();
for (KdeConnectPlugin *plugin : qAsConst(d->m_plugins)) {
const QString dbusPath = plugin->dbusPath();
if (!dbusPath.isEmpty()) {
bus.registerObject(dbusPath,
plugin,
QDBusConnection::ExportAllProperties | QDBusConnection::ExportScriptableInvokables | QDBusConnection::ExportScriptableSignals
| QDBusConnection::ExportScriptableSlots);
}
}
if (differentPlugins) {
Q_EMIT pluginsChanged();
}
}
QString Device::pluginsConfigFile() const
{
return KdeConnectConfig::instance().deviceConfigDir(id()).absoluteFilePath(QStringLiteral("config"));
}
void Device::requestPairing()
{
qCDebug(KDECONNECT_CORE) << "Request pairing";
d->m_pairingHandler->requestPairing();
Q_EMIT pairStateChanged(pairStateAsInt());
}
void Device::unpair()
{
qCDebug(KDECONNECT_CORE) << "Request unpairing";
d->m_pairingHandler->unpair();
}
void Device::acceptPairing()
{
qCDebug(KDECONNECT_CORE) << "Accept pairing";
d->m_pairingHandler->acceptPairing();
}
void Device::cancelPairing()
{
qCDebug(KDECONNECT_CORE) << "Cancel pairing";
d->m_pairingHandler->cancelPairing();
}
void Device::pairingHandler_incomingPairRequest()
{
Q_ASSERT(d->m_pairingHandler->pairState() == PairState::RequestedByPeer);
Q_EMIT pairStateChanged(pairStateAsInt());
}
void Device::pairingHandler_pairingSuccessful()
{
Q_ASSERT(d->m_pairingHandler->pairState() == PairState::Paired);
KdeConnectConfig::instance().addTrustedDevice(d->m_deviceInfo);
reloadPlugins(); // Will load/unload plugins
Q_EMIT pairStateChanged(pairStateAsInt());
}
void Device::pairingHandler_pairingFailed(const QString &errorMessage)
{
Q_ASSERT(d->m_pairingHandler->pairState() == PairState::NotPaired);
Q_EMIT pairingFailed(errorMessage);
Q_EMIT pairStateChanged(pairStateAsInt());
}
void Device::pairingHandler_unpaired()
{
Q_ASSERT(d->m_pairingHandler->pairState() == PairState::NotPaired);
qCDebug(KDECONNECT_CORE) << "Unpaired";
KdeConnectConfig::instance().removeTrustedDevice(id());
reloadPlugins(); // Will load/unload plugins
Q_EMIT pairStateChanged(pairStateAsInt());
}
void Device::addLink(DeviceLink *link)
{
if (d->m_deviceLinks.contains(link)) {
return;
}
d->m_deviceLinks.append(link);
std::sort(d->m_deviceLinks.begin(), d->m_deviceLinks.end(), [](DeviceLink *a, DeviceLink *b) {
return a->priority() > b->priority();
});
connect(link, &QObject::destroyed, this, &Device::linkDestroyed);
connect(link, &DeviceLink::receivedPacket, this, &Device::privateReceivedPacket);
bool hasChanges = updateDeviceInfo(link->deviceInfo());
if (d->m_deviceLinks.size() == 1) {
Q_EMIT reachableChanged(true);
hasChanges = true;
}
if (hasChanges) {
reloadPlugins();
}
}
bool Device::updateDeviceInfo(const DeviceInfo &newDeviceInfo)
{
bool hasChanges = false;
if (d->m_deviceInfo.name != newDeviceInfo.name || d->m_deviceInfo.type != newDeviceInfo.type) {
hasChanges = true;
d->m_deviceInfo.name = newDeviceInfo.name;
d->m_deviceInfo.type = newDeviceInfo.type;
Q_EMIT typeChanged(d->m_deviceInfo.type.toString());
Q_EMIT nameChanged(d->m_deviceInfo.name);
if (isPaired()) {
KdeConnectConfig::instance().updateTrustedDeviceInfo(d->m_deviceInfo);
}
}
if (d->m_deviceInfo.outgoingCapabilities != newDeviceInfo.outgoingCapabilities
|| d->m_deviceInfo.incomingCapabilities != newDeviceInfo.incomingCapabilities) {
if (!newDeviceInfo.incomingCapabilities.isEmpty() && !newDeviceInfo.outgoingCapabilities.isEmpty()) {
hasChanges = true;
d->m_supportedPlugins = PluginLoader::instance()->pluginsForCapabilities(newDeviceInfo.incomingCapabilities, newDeviceInfo.outgoingCapabilities);
qDebug() << "new capabilities for " << name();
}
}
return hasChanges;
}
void Device::linkDestroyed(QObject *o)
{
removeLink(static_cast<DeviceLink *>(o));
}
void Device::removeLink(DeviceLink *link)
{
d->m_deviceLinks.removeAll(link);
// qCDebug(KDECONNECT_CORE) << "RemoveLink" << m_deviceLinks.size() << "links remaining";
if (d->m_deviceLinks.isEmpty()) {
reloadPlugins();
Q_EMIT reachableChanged(false);
}
}
bool Device::sendPacket(NetworkPacket &np)
{
Q_ASSERT(isPaired() || np.type() == PACKET_TYPE_PAIR);
// Maybe we could block here any packet that is not an identity or a pairing packet to prevent sending non encrypted data
for (DeviceLink *dl : qAsConst(d->m_deviceLinks)) {
if (dl->sendPacket(np))
return true;
}
return false;
}
void Device::privateReceivedPacket(const NetworkPacket &np)
{
if (np.type() == PACKET_TYPE_PAIR) {
d->m_pairingHandler->packetReceived(np);
} else if (isPaired()) {
const QList<KdeConnectPlugin *> plugins = d->m_pluginsByIncomingCapability.values(np.type());
if (plugins.isEmpty()) {
qWarning() << "discarding unsupported packet" << np.type() << "for" << name();
}
for (KdeConnectPlugin *plugin : plugins) {
plugin->receivePacket(np);
}
} else {
qCDebug(KDECONNECT_CORE) << "device" << name() << "not paired, ignoring packet" << np.type();
unpair();
}
}
PairState Device::pairState() const
{
return d->m_pairingHandler->pairState();
}
int Device::pairStateAsInt() const
{
return (int)pairState();
}
bool Device::isPaired() const
{
return d->m_pairingHandler->pairState() == PairState::Paired;
}
bool Device::isPairRequested() const
{
return d->m_pairingHandler->pairState() == PairState::Requested;
}
bool Device::isPairRequestedByPeer() const
{
return d->m_pairingHandler->pairState() == PairState::RequestedByPeer;
}
QHostAddress Device::getLocalIpAddress() const
{
for (DeviceLink *dl : qAsConst(d->m_deviceLinks)) {
LanDeviceLink *ldl = dynamic_cast<LanDeviceLink *>(dl);
if (ldl) {
return ldl->hostAddress();
}
}
return QHostAddress::Null;
}
QString Device::iconName() const
{
return d->m_deviceInfo.type.icon();
}
QString Device::statusIconName() const
{
return d->m_deviceInfo.type.iconForStatus(isReachable(), isPaired());
}
KdeConnectPlugin *Device::plugin(const QString &pluginName) const
{
return d->m_plugins[pluginName];
}
void Device::setPluginEnabled(const QString &pluginName, bool enabled)
{
if (!PluginLoader::instance()->doesPluginExist(pluginName)) {
qWarning() << "Tried to enable a plugin that doesn't exist" << pluginName;
return;
}
KConfigGroup pluginStates = KSharedConfig::openConfig(pluginsConfigFile())->group(QStringLiteral("Plugins"));
const QString enabledKey = pluginName + QStringLiteral("Enabled");
pluginStates.writeEntry(enabledKey, enabled);
reloadPlugins();
}
bool Device::isPluginEnabled(const QString &pluginName) const
{
const QString enabledKey = pluginName + QStringLiteral("Enabled");
KConfigGroup pluginStates = KSharedConfig::openConfig(pluginsConfigFile())->group(QStringLiteral("Plugins"));
return (pluginStates.hasKey(enabledKey) ? pluginStates.readEntry(enabledKey, false)
: PluginLoader::instance()->getPluginInfo(pluginName).isEnabledByDefault());
}
QString Device::encryptionInfo() const
{
QString result;
const QCryptographicHash::Algorithm digestAlgorithm = QCryptographicHash::Algorithm::Sha256;
QString localChecksum = QString::fromLatin1(KdeConnectConfig::instance().certificate().digest(digestAlgorithm).toHex());
for (int i = 2; i < localChecksum.size(); i += 3) {
localChecksum.insert(i, QLatin1Char(':')); // Improve readability
}
result += i18n("SHA256 fingerprint of your device certificate is: %1\n", localChecksum);
QString remoteChecksum = QString::fromLatin1(certificate().digest(digestAlgorithm).toHex());
for (int i = 2; i < remoteChecksum.size(); i += 3) {
remoteChecksum.insert(i, QLatin1Char(':')); // Improve readability
}
result += i18n("SHA256 fingerprint of remote device certificate is: %1\n", remoteChecksum);
return result;
}
QSslCertificate Device::certificate() const
{
return d->m_deviceInfo.certificate;
}
QByteArray Device::verificationKey() const
{
auto a = KdeConnectConfig::instance().certificate().publicKey().toDer();
auto b = certificate().publicKey().toDer();
if (a < b) {
std::swap(a, b);
}
QCryptographicHash hash(QCryptographicHash::Sha256);
hash.addData(a);
hash.addData(b);
return hash.result().toHex();
}
QString Device::pluginIconName(const QString &pluginName)
{
if (hasPlugin(pluginName)) {
return d->m_plugins[pluginName]->iconName();
}
return QString();
}
#include "moc_device.cpp"