diff --git a/libs/declarative/networkstatus.cpp b/libs/declarative/networkstatus.cpp index 7ddf121f..1ec6227f 100644 --- a/libs/declarative/networkstatus.cpp +++ b/libs/declarative/networkstatus.cpp @@ -1,239 +1,235 @@ /* Copyright 2013 Jan Grulich This library is free software; you can redistribute it and/or modify it under the terms of the GNU Lesser General Public License as published by the Free Software Foundation; either version 2.1 of the License, or (at your option) version 3, or any later version accepted by the membership of KDE e.V. (or its successor approved by the membership of KDE e.V.), which shall act as a proxy defined in Section 6 of version 3 of the license. This library is distributed in the hope that it will be useful, but WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU Lesser General Public License for more details. You should have received a copy of the GNU Lesser General Public License along with this library. If not, see . */ #include "networkstatus.h" #include "uiutils.h" #include #include #include #include NetworkStatus::SortedConnectionType NetworkStatus::connectionTypeToSortedType(NetworkManager::ConnectionSettings::ConnectionType type) { switch (type) { case NetworkManager::ConnectionSettings::Adsl: return NetworkStatus::NetworkStatus::Adsl; break; case NetworkManager::ConnectionSettings::Bluetooth: return NetworkStatus::Bluetooth; break; case NetworkManager::ConnectionSettings::Cdma: return NetworkStatus::Cdma; break; case NetworkManager::ConnectionSettings::Gsm: return NetworkStatus::Gsm; break; case NetworkManager::ConnectionSettings::Infiniband: return NetworkStatus::Infiniband; break; case NetworkManager::ConnectionSettings::OLPCMesh: return NetworkStatus::OLPCMesh; break; case NetworkManager::ConnectionSettings::Pppoe: return NetworkStatus::Pppoe; break; case NetworkManager::ConnectionSettings::Vpn: return NetworkStatus::Vpn; break; case NetworkManager::ConnectionSettings::Wired: return NetworkStatus::Wired; break; case NetworkManager::ConnectionSettings::Wireless: return NetworkStatus::Wireless; break; default: return NetworkStatus::Other; break; } } NetworkStatus::NetworkStatus(QObject* parent) : QObject(parent) { connect(NetworkManager::notifier(), &NetworkManager::Notifier::statusChanged, this, &NetworkStatus::statusChanged); connect(NetworkManager::notifier(), &NetworkManager::Notifier::activeConnectionsChanged, this, QOverload<>::of(&NetworkStatus::activeConnectionsChanged)); activeConnectionsChanged(); statusChanged(NetworkManager::status()); } NetworkStatus::~NetworkStatus() { } QString NetworkStatus::activeConnections() const { return m_activeConnections; } QString NetworkStatus::networkStatus() const { return m_networkStatus; } void NetworkStatus::activeConnectionsChanged() { for (const NetworkManager::ActiveConnection::Ptr & active : NetworkManager::activeConnections()) { connect(active.data(), &NetworkManager::ActiveConnection::default4Changed, this, &NetworkStatus::defaultChanged, Qt::UniqueConnection); connect(active.data(), &NetworkManager::ActiveConnection::default6Changed, this, &NetworkStatus::defaultChanged, Qt::UniqueConnection); connect(active.data(), &NetworkManager::ActiveConnection::stateChanged, this, &NetworkStatus::changeActiveConnections); } changeActiveConnections(); } void NetworkStatus::defaultChanged() { statusChanged(NetworkManager::status()); } void NetworkStatus::statusChanged(NetworkManager::Status status) { switch (status) { case NetworkManager::ConnectedLinkLocal: m_networkStatus = i18nc("A network device is connected, but there is only link-local connectivity", "Connected"); break; case NetworkManager::ConnectedSiteOnly: m_networkStatus = i18nc("A network device is connected, but there is only site-local connectivity", "Connected"); break; case NetworkManager::Connected: m_networkStatus = i18nc("A network device is connected, with global network connectivity", "Connected"); break; case NetworkManager::Asleep: m_networkStatus = i18nc("Networking is inactive and all devices are disabled", "Inactive"); break; case NetworkManager::Disconnected: m_networkStatus = i18nc("There is no active network connection", "Disconnected"); break; case NetworkManager::Disconnecting: m_networkStatus = i18nc("Network connections are being cleaned up", "Disconnecting"); break; case NetworkManager::Connecting: m_networkStatus = i18nc("A network device is connecting to a network and there is no other available network connection", "Connecting"); break; default: m_networkStatus = checkUnknownReason(); break; } if (status == NetworkManager::ConnectedLinkLocal || status == NetworkManager::ConnectedSiteOnly || status == NetworkManager::Connected) { changeActiveConnections(); } else { m_activeConnections = m_networkStatus; Q_EMIT activeConnectionsChanged(m_activeConnections); } Q_EMIT networkStatusChanged(m_networkStatus); } void NetworkStatus::changeActiveConnections() { if (NetworkManager::status() != NetworkManager::Connected && NetworkManager::status() != NetworkManager::ConnectedLinkLocal && NetworkManager::status() != NetworkManager::ConnectedSiteOnly) { return; } QString activeConnections; const QString format = QStringLiteral("%1: %2"); QList activeConnectionList = NetworkManager::activeConnections(); std::sort(activeConnectionList.begin(), activeConnectionList.end(), [] (const NetworkManager::ActiveConnection::Ptr &left, const NetworkManager::ActiveConnection::Ptr &right) { return NetworkStatus::connectionTypeToSortedType(left->type()) < NetworkStatus::connectionTypeToSortedType(right->type()); }); for (const NetworkManager::ActiveConnection::Ptr &active : activeConnectionList) { if (!active->devices().isEmpty() && UiUtils::isConnectionTypeSupported(active->type())) { NetworkManager::Device::Ptr device = NetworkManager::findNetworkInterface(active->devices().first()); -#if NM_CHECK_VERSION(0, 9, 10) if (device && device->type() != NetworkManager::Device::Generic && device->type() <= NetworkManager::Device::Team) { -#else - if (device) { -#endif bool connecting = false; bool connected = false; QString conType; QString status; NetworkManager::VpnConnection::Ptr vpnConnection; if (active->vpn()) { conType = i18n("VPN"); vpnConnection = active.objectCast(); } else { conType = UiUtils::interfaceTypeLabel(device->type(), device); } if (vpnConnection && active->vpn()) { if (vpnConnection->state() >= NetworkManager::VpnConnection::Prepare && vpnConnection->state() <= NetworkManager::VpnConnection::GettingIpConfig) { connecting = true; } else if (vpnConnection->state() == NetworkManager::VpnConnection::Activated) { connected = true; } } else { if (active->state() == NetworkManager::ActiveConnection::Activated) { connected = true; } else if (active->state() == NetworkManager::ActiveConnection::Activating) { connecting = true; } } NetworkManager::Connection::Ptr connection = active->connection(); if (connecting) { status = i18n("Connecting to %1", connection->name()); } else if (connected) { status = i18n("Connected to %1", connection->name()); } if (!activeConnections.isEmpty()) { activeConnections += '\n'; } activeConnections += format.arg(conType, status); connect(connection.data(), &NetworkManager::Connection::updated, this, &NetworkStatus::changeActiveConnections, Qt::UniqueConnection); } } } m_activeConnections = activeConnections; Q_EMIT activeConnectionsChanged(activeConnections); } QString NetworkStatus::checkUnknownReason() const { // Check if NetworkManager is running. if (!QDBusConnection::systemBus().interface()->isServiceRegistered(NM_DBUS_INTERFACE)) { return i18n("NetworkManager not running"); } // Check for compatible NetworkManager version. if (NetworkManager::compareVersion(0, 9, 8) < 0) { return i18n("NetworkManager 0.9.8 required, found %1.", NetworkManager::version()); } return i18nc("global connection state", "Unknown"); } diff --git a/libs/editor/connectioneditorbase.cpp b/libs/editor/connectioneditorbase.cpp index af531770..e5d28cc3 100644 --- a/libs/editor/connectioneditorbase.cpp +++ b/libs/editor/connectioneditorbase.cpp @@ -1,490 +1,485 @@ /* Copyright 2013-2016 Jan Grulich Copyright 2013, 2014 Lukas Tinkl This library is free software; you can redistribute it and/or modify it under the terms of the GNU Lesser General Public License as published by the Free Software Foundation; either version 2.1 of the License, or (at your option) version 3, or any later version accepted by the membership of KDE e.V. (or its successor approved by the membership of KDE e.V.), which shall act as a proxy defined in Section 6 of version 3 of the license. This library is distributed in the hope that it will be useful, but WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU Lesser General Public License for more details. You should have received a copy of the GNU Lesser General Public License along with this library. If not, see . */ #include "connectioneditorbase.h" #include "debug.h" #include "settings/bondwidget.h" #include "settings/bridgewidget.h" #include "settings/btwidget.h" #include "settings/cdmawidget.h" #include "settings/connectionwidget.h" #include "settings/gsmwidget.h" #include "settings/infinibandwidget.h" #include "settings/ipv4widget.h" #include "settings/ipv6widget.h" #include "settings/pppwidget.h" #include "settings/pppoewidget.h" #include "settings/teamwidget.h" #include "settings/vlanwidget.h" #include "settings/wificonnectionwidget.h" #include "settings/wifisecurity.h" #include "settings/wiredconnectionwidget.h" #include "settings/wiredsecurity.h" #include "vpnuiplugin.h" #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include ConnectionEditorBase::ConnectionEditorBase(const NetworkManager::ConnectionSettings::Ptr &connection, QWidget *parent, Qt::WindowFlags f) : QWidget(parent, f) , m_initialized(false) , m_valid(false) , m_pendingReplies(0) , m_connection(connection) { } ConnectionEditorBase::ConnectionEditorBase(QWidget *parent, Qt::WindowFlags f) : QWidget(parent, f) { } ConnectionEditorBase::~ConnectionEditorBase() { m_connection.clear(); } void ConnectionEditorBase::setConnection(const NetworkManager::ConnectionSettings::Ptr &connection) { // Set connection settings m_connection.clear(); m_connection = connection; m_initialized = false; // Reset UI setting widgets delete m_connectionWidget; m_connectionWidget = nullptr; qDeleteAll(m_settingWidgets); m_settingWidgets.clear(); initialize(); } NMVariantMapMap ConnectionEditorBase::setting() const { NMVariantMapMap settings = m_connectionWidget->setting(); for (SettingWidget *widget : m_settingWidgets) { const QString type = widget->type(); if (type != NetworkManager::Setting::typeAsString(NetworkManager::Setting::Security8021x) && type != NetworkManager::Setting::typeAsString(NetworkManager::Setting::WirelessSecurity)) { settings.insert(type, widget->setting()); } // add 802.1x security if needed QVariantMap security8021x; if (type == NetworkManager::Setting::typeAsString(NetworkManager::Setting::WirelessSecurity)) { WifiSecurity *wifiSecurity = static_cast(widget); if (wifiSecurity->enabled()) { settings.insert(type, wifiSecurity->setting()); } if (wifiSecurity->enabled8021x()) { security8021x = static_cast(widget)->setting8021x(); settings.insert(NetworkManager::Setting::typeAsString(NetworkManager::Setting::Security8021x), security8021x); } } else if (type == NetworkManager::Setting::typeAsString(NetworkManager::Setting::Security8021x)) { WiredSecurity *wiredSecurity = static_cast(widget); if (wiredSecurity->enabled8021x()) { security8021x = static_cast(widget)->setting(); settings.insert(NetworkManager::Setting::typeAsString(NetworkManager::Setting::Security8021x), security8021x); } } } // Set properties which are not returned from setting widgets NetworkManager::ConnectionSettings::Ptr connectionSettings = NetworkManager::ConnectionSettings::Ptr(new NetworkManager::ConnectionSettings(m_connection->connectionType())); connectionSettings->fromMap(settings); connectionSettings->setId(connectionName()); connectionSettings->setUuid(m_connection->uuid()); if (connectionSettings->connectionType() == NetworkManager::ConnectionSettings::Wireless) { NetworkManager::WirelessSecuritySetting::Ptr securitySetting = connectionSettings->setting(NetworkManager::Setting::WirelessSecurity).staticCast(); NetworkManager::WirelessSetting::Ptr wirelessSetting = connectionSettings->setting(NetworkManager::Setting::Wireless).staticCast(); if (securitySetting && wirelessSetting) { if (securitySetting->keyMgmt() != NetworkManager::WirelessSecuritySetting::WirelessSecuritySetting::Unknown) { wirelessSetting->setSecurity("802-11-wireless-security"); } } } return connectionSettings->toMap(); } bool ConnectionEditorBase::isInitialized() const { return m_initialized; } bool ConnectionEditorBase::isValid() const { return m_valid; } void ConnectionEditorBase::addConnectionWidget(ConnectionWidget *widget, const QString &text) { m_connectionWidget = widget; connect(widget, &ConnectionWidget::settingChanged, this, &ConnectionEditorBase::settingChanged); addWidget(widget, text); } void ConnectionEditorBase::addSettingWidget(SettingWidget *widget, const QString &text) { m_settingWidgets << widget; connect(widget, &SettingWidget::settingChanged, this, &ConnectionEditorBase::settingChanged); addWidget(widget, text); } void ConnectionEditorBase::initialize() { const bool emptyConnection = m_connection->id().isEmpty(); const NetworkManager::ConnectionSettings::ConnectionType type = m_connection->connectionType(); if (emptyConnection) { m_connection->addToPermissions(KUser().loginName(), QString()); } // General configuration common to all connection types ConnectionWidget *connectionWidget = new ConnectionWidget(m_connection); addConnectionWidget(connectionWidget, i18nc("General", "General configuration")); // Add the rest of widgets QString serviceType; if (type == NetworkManager::ConnectionSettings::Wired) { WiredConnectionWidget *wiredWidget = new WiredConnectionWidget(m_connection->setting(NetworkManager::Setting::Wired), this); addSettingWidget(wiredWidget, i18n("Wired")); WiredSecurity *wiredSecurity = new WiredSecurity(m_connection->setting(NetworkManager::Setting::Security8021x).staticCast(), this); addSettingWidget(wiredSecurity, i18n("802.1x Security")); } else if (type == NetworkManager::ConnectionSettings::Wireless) { WifiConnectionWidget *wifiWidget = new WifiConnectionWidget(m_connection->setting(NetworkManager::Setting::Wireless), this); addSettingWidget(wifiWidget, i18n("Wi-Fi")); WifiSecurity *wifiSecurity = new WifiSecurity(m_connection->setting(NetworkManager::Setting::WirelessSecurity), m_connection->setting(NetworkManager::Setting::Security8021x).staticCast(), this); addSettingWidget(wifiSecurity, i18n("Wi-Fi Security")); connect(wifiWidget, QOverload::of(&WifiConnectionWidget::ssidChanged), wifiSecurity, &WifiSecurity::onSsidChanged); } else if (type == NetworkManager::ConnectionSettings::Pppoe) { // DSL PppoeWidget *pppoeWidget = new PppoeWidget(m_connection->setting(NetworkManager::Setting::Pppoe), this); addSettingWidget(pppoeWidget, i18n("DSL")); WiredConnectionWidget *wiredWidget = new WiredConnectionWidget(m_connection->setting(NetworkManager::Setting::Wired), this); addSettingWidget(wiredWidget, i18n("Wired")); } else if (type == NetworkManager::ConnectionSettings::Gsm) { // GSM GsmWidget *gsmWidget = new GsmWidget(m_connection->setting(NetworkManager::Setting::Gsm), this); addSettingWidget(gsmWidget, i18n("Mobile Broadband (%1)", m_connection->typeAsString(m_connection->connectionType()))); } else if (type == NetworkManager::ConnectionSettings::Cdma) { // CDMA CdmaWidget *cdmaWidget = new CdmaWidget(m_connection->setting(NetworkManager::Setting::Cdma), this); addSettingWidget(cdmaWidget, i18n("Mobile Broadband (%1)", m_connection->typeAsString(m_connection->connectionType()))); } else if (type == NetworkManager::ConnectionSettings::Bluetooth) { // Bluetooth BtWidget *btWidget = new BtWidget(m_connection->setting(NetworkManager::Setting::Bluetooth), this); addSettingWidget(btWidget, i18n("Bluetooth")); NetworkManager::BluetoothSetting::Ptr btSetting = m_connection->setting(NetworkManager::Setting::Bluetooth).staticCast(); if (btSetting->profileType() == NetworkManager::BluetoothSetting::Dun) { GsmWidget *gsmWidget = new GsmWidget(m_connection->setting(NetworkManager::Setting::Gsm), this); addSettingWidget(gsmWidget, i18n("GSM")); PPPWidget *pppWidget = new PPPWidget(m_connection->setting(NetworkManager::Setting::Ppp), this); addSettingWidget(pppWidget, i18n("PPP")); } } else if (type == NetworkManager::ConnectionSettings::Infiniband) { // Infiniband InfinibandWidget *infinibandWidget = new InfinibandWidget(m_connection->setting(NetworkManager::Setting::Infiniband), this); addSettingWidget(infinibandWidget, i18n("Infiniband")); } else if (type == NetworkManager::ConnectionSettings::Bond) { // Bond BondWidget *bondWidget = new BondWidget(m_connection->uuid(), m_connection->setting(NetworkManager::Setting::Bond), this); addSettingWidget(bondWidget, i18n("Bond")); } else if (type == NetworkManager::ConnectionSettings::Bridge) { // Bridge BridgeWidget *bridgeWidget = new BridgeWidget(m_connection->uuid(), m_connection->setting(NetworkManager::Setting::Bridge), this); addSettingWidget(bridgeWidget, i18n("Bridge")); } else if (type == NetworkManager::ConnectionSettings::Vlan) { // Vlan VlanWidget *vlanWidget = new VlanWidget(m_connection->setting(NetworkManager::Setting::Vlan), this); addSettingWidget(vlanWidget, i18n("Vlan")); } else if (type == NetworkManager::ConnectionSettings::Team) { // Team TeamWidget *teamWidget = new TeamWidget(m_connection->uuid(), m_connection->setting(NetworkManager::Setting::Team), this); addSettingWidget(teamWidget, i18n("Team")); } else if (type == NetworkManager::ConnectionSettings::Vpn) { // VPN QString error; VpnUiPlugin *vpnPlugin = nullptr; NetworkManager::VpnSetting::Ptr vpnSetting = m_connection->setting(NetworkManager::Setting::Vpn).staticCast(); if (!vpnSetting) { qCWarning(PLASMA_NM) << "Missing VPN setting!"; } else { serviceType = vpnSetting->serviceType(); vpnPlugin = KServiceTypeTrader::createInstanceFromQuery(QString::fromLatin1("PlasmaNetworkManagement/VpnUiPlugin"), QString::fromLatin1("[X-NetworkManager-Services]=='%1'").arg(serviceType), this, QVariantList(), &error); if (vpnPlugin && error.isEmpty()) { const QString shortName = serviceType.section('.', -1); SettingWidget *vpnWidget = vpnPlugin->widget(vpnSetting, this); addSettingWidget(vpnWidget, i18n("VPN (%1)", shortName)); } else { qCWarning(PLASMA_NM) << error << ", serviceType == " << serviceType; } } } // PPP widget if (type == NetworkManager::ConnectionSettings::Pppoe || type == NetworkManager::ConnectionSettings::Cdma || type == NetworkManager::ConnectionSettings::Gsm) { PPPWidget *pppWidget = new PPPWidget(m_connection->setting(NetworkManager::Setting::Ppp), this); addSettingWidget(pppWidget, i18n("PPP")); } // IPv4 widget if (!m_connection->isSlave()) { IPv4Widget *ipv4Widget = new IPv4Widget(m_connection->setting(NetworkManager::Setting::Ipv4), this); addSettingWidget(ipv4Widget, i18n("IPv4")); } // IPv6 widget if ((type == NetworkManager::ConnectionSettings::Wired || type == NetworkManager::ConnectionSettings::Wireless || type == NetworkManager::ConnectionSettings::Infiniband -#if NM_CHECK_VERSION(0, 9, 10) || type == NetworkManager::ConnectionSettings::Team -#endif - -#if NM_CHECK_VERSION(1, 0, 0) || type == NetworkManager::ConnectionSettings::Cdma || type == NetworkManager::ConnectionSettings::Gsm -#endif || type == NetworkManager::ConnectionSettings::Bond || type == NetworkManager::ConnectionSettings::Bridge || type == NetworkManager::ConnectionSettings::Vlan || (type == NetworkManager::ConnectionSettings::Vpn && serviceType == QLatin1String("org.freedesktop.NetworkManager.openvpn"))) && !m_connection->isSlave()) { IPv6Widget *ipv6Widget = new IPv6Widget(m_connection->setting(NetworkManager::Setting::Ipv6), this); addSettingWidget(ipv6Widget, i18n("IPv6")); } // Re-check validation bool valid = true; for (SettingWidget *widget : m_settingWidgets) { valid = valid && widget->isValid(); connect(widget, &SettingWidget::validChanged, this, &ConnectionEditorBase::validChanged); } m_valid = valid; Q_EMIT validityChanged(valid); KAcceleratorManager::manage(this); // If the connection is not empty (not new) we want to load its secrets if (!emptyConnection) { NetworkManager::Connection::Ptr connection = NetworkManager::findConnectionByUuid(m_connection->uuid()); if (connection) { QStringList requiredSecrets; QString settingName; QVariantMap setting; QDBusPendingReply reply; if (m_connection->connectionType() == NetworkManager::ConnectionSettings::Adsl) { NetworkManager::AdslSetting::Ptr adslSetting = connection->settings()->setting(NetworkManager::Setting::Adsl).staticCast(); if (adslSetting && !adslSetting->needSecrets().isEmpty()) { requiredSecrets = adslSetting->needSecrets(); setting = adslSetting->toMap(); settingName = QLatin1String("adsl"); } } else if (m_connection->connectionType() == NetworkManager::ConnectionSettings::Bluetooth) { NetworkManager::GsmSetting::Ptr gsmSetting = connection->settings()->setting(NetworkManager::Setting::Gsm).staticCast(); if (gsmSetting && !gsmSetting->needSecrets().isEmpty()) { requiredSecrets = gsmSetting->needSecrets(); setting = gsmSetting->toMap(); settingName = QLatin1String("gsm"); } } else if (m_connection->connectionType() == NetworkManager::ConnectionSettings::Cdma) { NetworkManager::CdmaSetting::Ptr cdmaSetting = connection->settings()->setting(NetworkManager::Setting::Cdma).staticCast(); if (cdmaSetting && !cdmaSetting->needSecrets().isEmpty()) { requiredSecrets = cdmaSetting->needSecrets(); setting = cdmaSetting->toMap(); settingName = QLatin1String("cdma"); } } else if (m_connection->connectionType() == NetworkManager::ConnectionSettings::Gsm) { NetworkManager::GsmSetting::Ptr gsmSetting = connection->settings()->setting(NetworkManager::Setting::Gsm).staticCast(); if (gsmSetting && !gsmSetting->needSecrets().isEmpty()) { requiredSecrets = gsmSetting->needSecrets(); setting = gsmSetting->toMap(); settingName = QLatin1String("gsm"); } } else if (m_connection->connectionType() == NetworkManager::ConnectionSettings::Pppoe) { NetworkManager::PppoeSetting::Ptr pppoeSetting = connection->settings()->setting(NetworkManager::Setting::Pppoe).staticCast(); if (pppoeSetting && !pppoeSetting->needSecrets().isEmpty()) { requiredSecrets = pppoeSetting->needSecrets(); setting = pppoeSetting->toMap(); settingName = QLatin1String("pppoe"); } } else if (m_connection->connectionType() == NetworkManager::ConnectionSettings::Wired) { NetworkManager::Security8021xSetting::Ptr securitySetting = connection->settings()->setting(NetworkManager::Setting::Security8021x).staticCast(); if (securitySetting && !securitySetting->needSecrets().isEmpty()) { requiredSecrets = securitySetting->needSecrets(); setting = securitySetting->toMap(); settingName = QLatin1String("802-1x"); } } else if (m_connection->connectionType() == NetworkManager::ConnectionSettings::Wireless) { NetworkManager::WirelessSecuritySetting::Ptr wifiSecuritySetting = connection->settings()->setting(NetworkManager::Setting::WirelessSecurity).staticCast(); if (wifiSecuritySetting && (wifiSecuritySetting->keyMgmt() == NetworkManager::WirelessSecuritySetting::WpaEap || (wifiSecuritySetting->keyMgmt() == NetworkManager::WirelessSecuritySetting::WirelessSecuritySetting::Ieee8021x && wifiSecuritySetting->authAlg() != NetworkManager::WirelessSecuritySetting::Leap))) { NetworkManager::Security8021xSetting::Ptr securitySetting = connection->settings()->setting(NetworkManager::Setting::Security8021x).staticCast(); if (securitySetting && !securitySetting->needSecrets().isEmpty()) { requiredSecrets = securitySetting->needSecrets(); setting = securitySetting->toMap(); settingName = QLatin1String("802-1x"); if (requiredSecrets.contains(NM_SETTING_802_1X_PASSWORD_RAW)) { requiredSecrets.removeAll(NM_SETTING_802_1X_PASSWORD_RAW); } } } else { if (!wifiSecuritySetting->needSecrets().isEmpty()) { requiredSecrets = wifiSecuritySetting->needSecrets(); setting = wifiSecuritySetting->toMap(); settingName = QLatin1String("802-11-wireless-security"); } } } else if (m_connection->connectionType() == NetworkManager::ConnectionSettings::Vpn) { settingName = QLatin1String("vpn"); } if (!requiredSecrets.isEmpty() || m_connection->connectionType() == NetworkManager::ConnectionSettings::Vpn) { bool requestSecrets = false; if (m_connection->connectionType() == NetworkManager::ConnectionSettings::Vpn) { NetworkManager::VpnSetting::Ptr vpnSetting = connection->settings()->setting(NetworkManager::Setting::Vpn).staticCast(); for (const QString &key : vpnSetting->data().keys()) { if (key.endsWith(QStringLiteral("-flags"))) { NetworkManager::Setting::SecretFlagType secretFlag = (NetworkManager::Setting::SecretFlagType)vpnSetting->data().value(key).toInt(); if (secretFlag == NetworkManager::Setting::None || secretFlag == NetworkManager::Setting::AgentOwned) { requestSecrets = true; } } } } else { for (const QString &secret : requiredSecrets) { if (setting.contains(secret + QLatin1String("-flags"))) { NetworkManager::Setting::SecretFlagType secretFlag = (NetworkManager::Setting::SecretFlagType)setting.value(secret + QLatin1String("-flags")).toInt(); if (secretFlag == NetworkManager::Setting::None || secretFlag == NetworkManager::Setting::AgentOwned) { requestSecrets = true; } } else { requestSecrets = true; } } } if (requestSecrets) { m_pendingReplies++; reply = connection->secrets(settingName); QDBusPendingCallWatcher *watcher = new QDBusPendingCallWatcher(reply, this); watcher->setProperty("connection", connection->name()); watcher->setProperty("settingName", settingName); connect(watcher, &QDBusPendingCallWatcher::finished, this, &ConnectionEditorBase::replyFinished); m_valid = false; Q_EMIT validityChanged(false); return; } } } } // We should be now fully initialized as we don't wait for secrets if (m_pendingReplies == 0) { m_initialized = true; } } void ConnectionEditorBase::replyFinished(QDBusPendingCallWatcher *watcher) { QDBusPendingReply reply = *watcher; const QString settingName = watcher->property("settingName").toString(); if (reply.isValid()) { NMVariantMapMap secrets = reply.argumentAt<0>(); for (const QString &key : secrets.keys()) { if (key == settingName) { NetworkManager::Setting::Ptr setting = m_connection->setting(NetworkManager::Setting::typeFromString(key)); if (setting) { setting->secretsFromMap(secrets.value(key)); for (SettingWidget *widget : m_settingWidgets) { const QString type = widget->type(); if (type == settingName || (settingName == NetworkManager::Setting::typeAsString(NetworkManager::Setting::Security8021x) && type == NetworkManager::Setting::typeAsString(NetworkManager::Setting::WirelessSecurity))) { widget->loadSecrets(setting); } } } } } } else { KNotification *notification = new KNotification("FailedToGetSecrets", KNotification::CloseOnTimeout); notification->setComponentName("networkmanagement"); notification->setTitle(i18n("Failed to get secrets for %1", watcher->property("connection").toString())); notification->setText(reply.error().message()); notification->setPixmap(QIcon::fromTheme("dialog-warning").pixmap(KIconLoader::SizeHuge)); notification->sendEvent(); } watcher->deleteLater(); validChanged(true); // We should be now fully with secrets m_pendingReplies--; m_initialized = true; } void ConnectionEditorBase::validChanged(bool valid) { if (!valid) { m_valid = false; Q_EMIT validityChanged(false); return; } else { for (SettingWidget *widget : m_settingWidgets) { if (!widget->isValid()) { m_valid = false; Q_EMIT validityChanged(false); return; } } } m_valid = true; Q_EMIT validityChanged(true); } diff --git a/libs/models/networkmodelitem.cpp b/libs/models/networkmodelitem.cpp index 17c84108..9a872556 100644 --- a/libs/models/networkmodelitem.cpp +++ b/libs/models/networkmodelitem.cpp @@ -1,597 +1,591 @@ /* Copyright 2013-2018 Jan Grulich This library is free software; you can redistribute it and/or modify it under the terms of the GNU Lesser General Public License as published by the Free Software Foundation; either version 2.1 of the License, or (at your option) version 3, or any later version accepted by the membership of KDE e.V. (or its successor approved by the membership of KDE e.V.), which shall act as a proxy defined in Section 6 of version 3 of the license. This library is distributed in the hope that it will be useful, but WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU Lesser General Public License for more details. You should have received a copy of the GNU Lesser General Public License along with this library. If not, see . */ #include "networkmodelitem.h" #include "uiutils.h" #include #include #include #include #include #include #include #include -#if NM_CHECK_VERSION (0, 9, 10) #include -#endif #include #include #include #include #include #include #include #include #if WITH_MODEMMANAGER_SUPPORT #include #include #include #include #include #endif NetworkModelItem::NetworkModelItem(QObject *parent) : QObject(parent) , m_connectionState(NetworkManager::ActiveConnection::Deactivated) , m_deviceState(NetworkManager::Device::UnknownState) , m_detailsValid(false) , m_duplicate(false) , m_mode(NetworkManager::WirelessSetting::Infrastructure) , m_securityType(NetworkManager::NoneSecurity) , m_signal(0) , m_slave(false) , m_type(NetworkManager::ConnectionSettings::Unknown) , m_vpnState(NetworkManager::VpnConnection::Unknown) , m_rxBytes(0) , m_txBytes(0) { } NetworkModelItem::NetworkModelItem(const NetworkModelItem *item, QObject *parent) : QObject(parent) , m_connectionPath(item->connectionPath()) , m_connectionState(NetworkManager::ActiveConnection::Deactivated) , m_detailsValid(false) , m_duplicate(true) , m_mode(item->mode()) , m_name(item->name()) , m_securityType(item->securityType()) , m_slave(item->slave()) , m_ssid(item->ssid()) , m_timestamp(item->timestamp()) , m_type(item->type()) , m_uuid(item->uuid()) , m_vpnState(NetworkManager::VpnConnection::Unknown) , m_rxBytes(0) , m_txBytes(0) { } NetworkModelItem::~NetworkModelItem() { } QString NetworkModelItem::activeConnectionPath() const { return m_activeConnectionPath; } void NetworkModelItem::setActiveConnectionPath(const QString &path) { m_activeConnectionPath = path; } QString NetworkModelItem::connectionPath() const { return m_connectionPath; } void NetworkModelItem::setConnectionPath(const QString &path) { m_connectionPath = path; } NetworkManager::ActiveConnection::State NetworkModelItem::connectionState() const { return m_connectionState; } void NetworkModelItem::setConnectionState(NetworkManager::ActiveConnection::State state) { m_connectionState = state; } QStringList NetworkModelItem::details() const { if (!m_detailsValid) { updateDetails(); } return m_details; } QString NetworkModelItem::devicePath() const { return m_devicePath; } QString NetworkModelItem::deviceName() const { return m_deviceName; } void NetworkModelItem::setDeviceName(const QString &name) { m_deviceName = name; } void NetworkModelItem::setDevicePath(const QString &path) { m_devicePath = path; } QString NetworkModelItem::deviceState() const { return UiUtils::connectionStateToString(m_deviceState); } void NetworkModelItem::setDeviceState(const NetworkManager::Device::State state) { m_deviceState = state; } bool NetworkModelItem::duplicate() const { return m_duplicate; } QString NetworkModelItem::icon() const { switch (m_type) { case NetworkManager::ConnectionSettings::Adsl: return QStringLiteral("network-mobile-100"); break; case NetworkManager::ConnectionSettings::Bluetooth: if (connectionState() == NetworkManager::ActiveConnection::Activated) { return QStringLiteral("network-bluetooth-activated"); } else { return QStringLiteral("network-bluetooth"); } break; case NetworkManager::ConnectionSettings::Bond: break; case NetworkManager::ConnectionSettings::Bridge: break; case NetworkManager::ConnectionSettings::Cdma: case NetworkManager::ConnectionSettings::Gsm: if (m_signal == 0 ) { return QStringLiteral("network-mobile-0"); } else if (m_signal < 20) { return QStringLiteral("network-mobile-20"); } else if (m_signal < 40) { return QStringLiteral("network-mobile-40"); } else if (m_signal < 60) { return QStringLiteral("network-mobile-60"); } else if (m_signal < 80) { return QStringLiteral("network-mobile-80"); } else { return QStringLiteral("network-mobile-100"); } break; case NetworkManager::ConnectionSettings::Infiniband: break; case NetworkManager::ConnectionSettings::OLPCMesh: break; case NetworkManager::ConnectionSettings::Pppoe: return QStringLiteral("network-mobile-100"); break; case NetworkManager::ConnectionSettings::Vlan: break; case NetworkManager::ConnectionSettings::Vpn: return QStringLiteral("network-vpn"); break; case NetworkManager::ConnectionSettings::Wired: if (connectionState() == NetworkManager::ActiveConnection::Activated) { return QStringLiteral("network-wired-activated"); } else { return QStringLiteral("network-wired"); } break; case NetworkManager::ConnectionSettings::Wireless: if (m_signal == 0 ) { if (m_mode == NetworkManager::WirelessSetting::Adhoc || m_mode == NetworkManager::WirelessSetting::Ap) { return (m_securityType <= NetworkManager::NoneSecurity) ? QStringLiteral("network-wireless-100") : QStringLiteral("network-wireless-100-locked"); } return (m_securityType <= NetworkManager::NoneSecurity) ? QStringLiteral("network-wireless-0") : QStringLiteral("network-wireless-0-locked"); } else if (m_signal < 20) { return (m_securityType <= NetworkManager::NoneSecurity) ? QStringLiteral("network-wireless-20") : QStringLiteral("network-wireless-20-locked"); } else if (m_signal < 40) { return (m_securityType <= NetworkManager::NoneSecurity) ? QStringLiteral("network-wireless-40") : QStringLiteral("network-wireless-40-locked"); } else if (m_signal < 60) { return (m_securityType <= NetworkManager::NoneSecurity) ? QStringLiteral("network-wireless-60") : QStringLiteral("network-wireless-60-locked"); } else if (m_signal < 80) { return (m_securityType <= NetworkManager::NoneSecurity) ? QStringLiteral("network-wireless-80") : QStringLiteral("network-wireless-80-locked"); } else { return (m_securityType <= NetworkManager::NoneSecurity) ? QStringLiteral("network-wireless-100") : QStringLiteral("network-wireless-100-locked"); } break; default: break; } if (connectionState() == NetworkManager::ActiveConnection::Activated) { return QStringLiteral("network-wired-activated"); } else { return QStringLiteral("network-wired"); } } NetworkModelItem::ItemType NetworkModelItem::itemType() const { if (!m_devicePath.isEmpty() || m_type == NetworkManager::ConnectionSettings::Bond || m_type == NetworkManager::ConnectionSettings::Bridge || m_type == NetworkManager::ConnectionSettings::Vlan || -#if NM_CHECK_VERSION(0, 9, 10) m_type == NetworkManager::ConnectionSettings::Team || -#endif ((NetworkManager::status() == NetworkManager::Connected || NetworkManager::status() == NetworkManager::ConnectedLinkLocal || NetworkManager::status() == NetworkManager::ConnectedSiteOnly) && m_type == NetworkManager::ConnectionSettings::Vpn)) { if (m_connectionPath.isEmpty() && m_type == NetworkManager::ConnectionSettings::Wireless) { return NetworkModelItem::AvailableAccessPoint; } else { return NetworkModelItem::AvailableConnection; } } return NetworkModelItem::UnavailableConnection; } NetworkManager::WirelessSetting::NetworkMode NetworkModelItem::mode() const { return m_mode; } void NetworkModelItem::setMode(const NetworkManager::WirelessSetting::NetworkMode mode) { m_mode = mode; } QString NetworkModelItem::name() const { return m_name; } void NetworkModelItem::setName(const QString &name) { m_name = name; } QString NetworkModelItem::originalName() const { if (m_deviceName.isEmpty()) { return m_name; } return m_name % QLatin1String(" (") % m_deviceName % ')'; } QString NetworkModelItem::sectionType() const { if (m_connectionState == NetworkManager::ActiveConnection::Activated) { return i18n("Active connections"); } else { return i18n("Available connections"); } } NetworkManager::WirelessSecurityType NetworkModelItem::securityType() const { return m_securityType; } void NetworkModelItem::setSecurityType(NetworkManager::WirelessSecurityType type) { m_securityType = type; } int NetworkModelItem::signal() const { return m_signal; } void NetworkModelItem::setSignal(int signal) { m_signal = signal; } bool NetworkModelItem::slave() const { return m_slave; } void NetworkModelItem::setSlave(bool slave) { m_slave = slave; } QString NetworkModelItem::specificPath() const { return m_specificPath; } void NetworkModelItem::setSpecificPath(const QString &path) { m_specificPath = path; } QString NetworkModelItem::ssid() const { return m_ssid; } void NetworkModelItem::setSsid(const QString &ssid) { m_ssid = ssid; } NetworkManager::ConnectionSettings::ConnectionType NetworkModelItem::type() const { return m_type; } QDateTime NetworkModelItem::timestamp() const { return m_timestamp; } void NetworkModelItem::setTimestamp(const QDateTime &date) { m_timestamp = date; } void NetworkModelItem::setType(NetworkManager::ConnectionSettings::ConnectionType type) { m_type = type; } QString NetworkModelItem::uni() const { if (m_type == NetworkManager::ConnectionSettings::Wireless && m_uuid.isEmpty()) { return m_ssid + '%' + m_devicePath; } else { return m_connectionPath + '%' + m_devicePath; } } QString NetworkModelItem::uuid() const { return m_uuid; } void NetworkModelItem::setUuid(const QString &uuid) { m_uuid = uuid; } QString NetworkModelItem::vpnState() const { return UiUtils::vpnConnectionStateToString(m_vpnState); } void NetworkModelItem::setVpnState(NetworkManager::VpnConnection::State state) { m_vpnState = state; } QString NetworkModelItem::vpnType() const { return m_vpnType; } void NetworkModelItem::setVpnType(const QString &type) { m_vpnType = type; } qulonglong NetworkModelItem::rxBytes() const { return m_rxBytes; } void NetworkModelItem::setRxBytes(qulonglong bytes) { m_rxBytes = bytes; } qulonglong NetworkModelItem::txBytes() const { return m_txBytes; } void NetworkModelItem::setTxBytes(qulonglong bytes) { m_txBytes = bytes; } bool NetworkModelItem::operator==(const NetworkModelItem *item) const { if (!item->uuid().isEmpty() && !uuid().isEmpty()) { if (item->devicePath() == devicePath() && item->uuid() == uuid()) { return true; } } else if (item->type() == NetworkManager::ConnectionSettings::Wireless && type() == NetworkManager::ConnectionSettings::Wireless) { if (item->ssid() == ssid() && item->devicePath() == devicePath()) { return true; } } return false; } void NetworkModelItem::invalidateDetails() { m_detailsValid = false; } void NetworkModelItem::updateDetails() const { m_detailsValid = true; m_details.clear(); if (itemType() == NetworkModelItem::UnavailableConnection) { return; } NetworkManager::Device::Ptr device = NetworkManager::findNetworkInterface(m_devicePath); // Get IPv[46]Address if (device && device->ipV4Config().isValid() && m_connectionState == NetworkManager::ActiveConnection::Activated) { if (!device->ipV4Config().addresses().isEmpty()) { QHostAddress addr = device->ipV4Config().addresses().first().ip(); if (!addr.isNull()) { m_details << i18n("IPv4 Address") << addr.toString(); } } } if (device && device->ipV6Config().isValid() && m_connectionState == NetworkManager::ActiveConnection::Activated) { if (!device->ipV6Config().addresses().isEmpty()) { QHostAddress addr = device->ipV6Config().addresses().first().ip(); if (!addr.isNull()) { m_details << i18n("IPv6 Address") << addr.toString(); } } } if (m_type == NetworkManager::ConnectionSettings::Wired) { NetworkManager::WiredDevice::Ptr wiredDevice = device.objectCast(); if (wiredDevice) { if (m_connectionState == NetworkManager::ActiveConnection::Activated) { m_details << i18n("Connection speed") << UiUtils::connectionSpeed(wiredDevice->bitRate()); } m_details << i18n("MAC Address") << wiredDevice->permanentHardwareAddress(); } } else if (m_type == NetworkManager::ConnectionSettings::Wireless) { NetworkManager::WirelessDevice::Ptr wirelessDevice = device.objectCast(); m_details << i18n("Access point (SSID)") << m_ssid; if (m_mode == NetworkManager::WirelessSetting::Infrastructure) { m_details << i18n("Signal strength") << QString("%1%").arg(m_signal); } if (m_connectionState == NetworkManager::ActiveConnection::Activated) { m_details << i18n("Security type") << UiUtils::labelFromWirelessSecurity(m_securityType); } if (wirelessDevice) { if (m_connectionState == NetworkManager::ActiveConnection::Activated) { m_details << i18n("Connection speed") << UiUtils::connectionSpeed(wirelessDevice->bitRate()); } m_details << i18n("MAC Address") << wirelessDevice->permanentHardwareAddress(); } } else if (m_type == NetworkManager::ConnectionSettings::Gsm || m_type == NetworkManager::ConnectionSettings::Cdma) { #if WITH_MODEMMANAGER_SUPPORT NetworkManager::ModemDevice::Ptr modemDevice = device.objectCast(); if (modemDevice) { ModemManager::ModemDevice::Ptr modem = ModemManager::findModemDevice(modemDevice->udi()); if (modem) { ModemManager::Modem::Ptr modemNetwork = modem->interface(ModemManager::ModemDevice::ModemInterface).objectCast(); if (m_type == NetworkManager::ConnectionSettings::Gsm) { ModemManager::Modem3gpp::Ptr gsmNet = modem->interface(ModemManager::ModemDevice::GsmInterface).objectCast(); if (gsmNet) { m_details << i18n("Operator") << gsmNet->operatorName(); } } else { ModemManager::ModemCdma::Ptr cdmaNet = modem->interface(ModemManager::ModemDevice::CdmaInterface).objectCast(); m_details << i18n("Network ID") << QString("%1").arg(cdmaNet->nid()); } if (modemNetwork) { m_details << i18n("Signal Quality") << QString("%1%").arg(modemNetwork->signalQuality().signal); m_details << i18n("Access Technology") << UiUtils::convertAccessTechnologyToString(modemNetwork->accessTechnologies()); } } } #endif } else if (m_type == NetworkManager::ConnectionSettings::Vpn) { m_details << i18n("VPN plugin") << m_vpnType; if (m_connectionState == NetworkManager::ActiveConnection::Activated) { NetworkManager::ActiveConnection::Ptr active = NetworkManager::findActiveConnection(m_activeConnectionPath); NetworkManager::VpnConnection::Ptr vpnConnection; if (active) { vpnConnection = NetworkManager::VpnConnection::Ptr(new NetworkManager::VpnConnection(active->path()), &QObject::deleteLater); } if (vpnConnection && !vpnConnection->banner().isEmpty()) { m_details << i18n("Banner") << vpnConnection->banner().simplified(); } } } else if (m_type == NetworkManager::ConnectionSettings::Bluetooth) { NetworkManager::BluetoothDevice::Ptr bluetoothDevice = device.objectCast(); if (bluetoothDevice) { m_details << i18n("Name") << bluetoothDevice->name(); if (bluetoothDevice->bluetoothCapabilities() == NetworkManager::BluetoothDevice::Pan) { m_details << i18n("Capabilities") << QStringLiteral("PAN"); } else if (bluetoothDevice->bluetoothCapabilities() == NetworkManager::BluetoothDevice::Dun) { m_details << i18n("Capabilities") << QStringLiteral("DUN"); } m_details << i18n("MAC Address") << bluetoothDevice->hardwareAddress(); } } else if (m_type == NetworkManager::ConnectionSettings::Infiniband) { NetworkManager::InfinibandDevice::Ptr infinibandDevice = device.objectCast(); m_details << i18n("Type") << i18n("Infiniband"); if (infinibandDevice) { m_details << i18n("MAC Address") << infinibandDevice->hwAddress(); } } else if (m_type == NetworkManager::ConnectionSettings::Bond) { NetworkManager::BondDevice::Ptr bondDevice = device.objectCast(); m_details << i18n("Type") << i18n("Bond"); if (bondDevice) { m_details << i18n("MAC Address") << bondDevice->hwAddress(); } } else if (m_type == NetworkManager::ConnectionSettings::Bridge) { NetworkManager::BridgeDevice::Ptr bridgeDevice = device.objectCast(); m_details << i18n("Type") << i18n("Bridge"); if (bridgeDevice) { m_details << i18n("MAC Address") << bridgeDevice->hwAddress(); } } else if (m_type == NetworkManager::ConnectionSettings::Vlan) { NetworkManager::VlanDevice::Ptr vlanDevice = device.objectCast(); m_details << i18n("Type") << i18n("Vlan"); if (vlanDevice) { m_details << i18n("Vlan ID") << QString("%1").arg(vlanDevice->vlanId()); m_details << i18n("MAC Address") << vlanDevice->hwAddress(); } } else if (m_type == NetworkManager::ConnectionSettings::Adsl) { m_details << i18n("Type") << i18n("Adsl"); } -#if NM_CHECK_VERSION (0, 9, 10) else if (m_type == NetworkManager::ConnectionSettings::Team) { NetworkManager::TeamDevice::Ptr teamDevice = device.objectCast(); m_details << i18n("Type") << i18n("Team"); if (teamDevice) { m_details << i18n("MAC Address") << teamDevice->hwAddress(); } } -#endif }