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#include "connectionsettingsengine.h"
#include <QDebug>
bool ConnectionSettingsEngine::wipeClonedMacAddress = false;
QString ConnectionSettingsEngine::targetConnUuidStr = QString();
/*
* The configuration map:
*
* connName: QString
* autoconnectEnabled: bool
* autoconnectPriority: int
* allUsersMayConnect: bool
* vpnAutoconnectEnabled: bool
* autoconnectVpn: QString
* meteredConnection: ConnectionSettingsEngine::Metered
* device: QString
* clonedMacAddress: QString
* mtu: int
*
* All things 802.1x:
*
* 802.1xEnabled: bool
* 802.1xAuthMode: ConnectionSettingsEngine::Security802_1xAuthMode
* 802.1xPasswordStore: ConnectionSettingsEngine::Security802_1xPasswordStoreMode
* MD5:
* 802.1xMd5Username: QString
* 802.1xMd5Password: QString
* TLS:
* 802.1xTlsIdentity: QString
* 802.1xTlsDomain: QString
* 802.1xTlsCaCertificate: QString (file path)
* 802.1xTlsUserCertificate: QString (file path)
* 802.1xTlsUserPrivateKey: QString (file path)
* 802.1xTlsUserKeyPassword: QString
* PWD:
* 802.1xPwdUsername: QString
* 802.1xPwdPassword: QString
* FAST:
* 802.1xFastAnonymousIdentity: QString
* 802.1xFastProvisioningMode: ConnectionSettingsEngine::Security802_1xFastProvisioningMode
* 802.1xFastPacFile: QString
* 802.1xFastAuthMethod: ConnectionSettingsEngine::Security802_1xAuthMethod
* 802.1xFastUsername: QString
* 802.1xFastPassword: QString
* Tunneled TLS:
* 802.1xTtlsAnonymousIdentity: QString
* 802.1xTtlsDomain: QString
* 802.1xTtlsCaCertificate: QString (file path)
* 802.1xTtlsAuthMethod: ConnectionSettingsEngine::Security802_1xAuthMethod
* 802.1xTtlsUsername: QString
* 802.1xTtlePassword: QString
* Protected EAP:
* 802.1xPeapAnonymousIdentity: QString
* 802.1xPeapDomain: QString
* 802.1xPeapCaCertificate: QByteArray (file path)
* 802.1xPeapVersion: ConnectionSettingsEngine::Security802_1xPeapVersion
* 802.1xPeapAuthMethod: ConnectionSettingsEngine::Security802_1xAuthMethod
* 802.1xPeapUsername: QString
* 802.1xPeapPassword: QString
*
* For Ethernet devices only:
* autoLinkNegotiation: ConnectionSettingsEngine::LinkNegotiation
* linkSpeed: ConnectionSettingsEngine::LinkSpeed
* duplexMode: ConnectionSettingsEngine::DuplexMode
*/
ConnectionSettingsEngine::ConnectionSettingsEngine()
{
}
QVariantMap ConnectionSettingsEngine::readConnectionSettings(QString connUuidStr)
{
// Contains adapted code from plasma-nm
NetworkManager::Connection::Ptr conn = NetworkManager::findConnectionByUuid(connUuidStr);
NetworkManager::ConnectionSettings::Ptr connSettings = conn->settings();
NetworkManager::Security8021xSetting::Ptr connSecurity802_1xSetting = connSettings->setting(NetworkManager::Setting::Security8021x).dynamicCast<NetworkManager::Security8021xSetting>();
NetworkManager::WiredSetting::Ptr connWiredSetting = connSettings->setting(NetworkManager::Setting::Wired).dynamicCast<NetworkManager::WiredSetting>();
NetworkManager::WirelessSetting::Ptr connWirelessSetting = connSettings->setting(NetworkManager::Setting::Wireless).dynamicCast<NetworkManager::WirelessSetting>();
QVariantMap result;
result.insert("connName", connSettings->id());
result.insert("autoconnectEnabled", connSettings->autoconnect());
result.insert("autoconnectPriority", connSettings->autoconnectPriority());
result.insert("allUsersMayConnect", connSettings->permissions().isEmpty() ? true : false);
qWarning() << connSettings->toMap();
QStringList secondaryConns = connSettings->secondaries();
NetworkManager::Connection::List list = NetworkManager::listConnections();
QStringList vpnList;
for (const NetworkManager::Connection::Ptr &conn : list) {
NetworkManager::ConnectionSettings::Ptr conSet = conn->settings();
if (conSet->connectionType() == NetworkManager::ConnectionSettings::Vpn
|| conSet->connectionType() == NetworkManager::ConnectionSettings::WireGuard) {
vpnList.append(conSet->uuid());
}
}
if (secondaryConns.isEmpty() || vpnList.isEmpty()) {
result.insert("vpnAutoconnectEnabled", false);
result.insert("autoconnectVpn", "");
} else {
for (const QString &vpnKey : vpnList) {
if (secondaryConns.contains(vpnKey)) {
result.insert("vpnAutoconnectEnabled", true);
result.insert("autoconnectVpn", vpnKey);
break;
}
}
}
switch(connSettings->metered()) {
case NetworkManager::ConnectionSettings::MeteredUnknown:
case NetworkManager::ConnectionSettings::MeteredGuessYes:
case NetworkManager::ConnectionSettings::MeteredGuessNo:
result.insert("meteredConnection", ConnectionSettingsEngine::MeteredAutomatic);
break;
case NetworkManager::ConnectionSettings::MeteredYes:
result.insert("meteredConnection", ConnectionSettingsEngine::MeteredYes);
break;
case NetworkManager::ConnectionSettings::MeteredNo:
result.insert("meteredConnection", ConnectionSettingsEngine::MeteredNo);
break;
}
result.insert("device", connSettings->interfaceName());
if (!connSecurity802_1xSetting.isNull()) {
QList<NetworkManager::Security8021xSetting::EapMethod> eapMethods = connSecurity802_1xSetting->eapMethods();
if (eapMethods.length() != 0) {
result.insert("802.1xEnabled", true);
switch (eapMethods[0]) {
case NetworkManager::Security8021xSetting::EapMethodMd5:
result.insert("802.1xAuthMode", ConnectionSettingsEngine::Security802_1xAuthMd5);
result.insert("802.1xMd5Username", connSecurity802_1xSetting->identity());
result.insert("802.1xMd5Password", connSecurity802_1xSetting->password());
break;
case NetworkManager::Security8021xSetting::EapMethodTls:
result.insert("802.1xAuthMode", ConnectionSettingsEngine::Security802_1xAuthTls);
result.insert("802.1xTlsIdentity", connSecurity802_1xSetting->identity());
result.insert("802.1xTlsDomain", connSecurity802_1xSetting->domainSuffixMatch());
result.insert("802.1xTlsCaCertificate", QString(connSecurity802_1xSetting->caCertificate()));
result.insert("802.1xTlsUserCertificate", QString(connSecurity802_1xSetting->clientCertificate()));
result.insert("802.1xTlsUserPrivateKey", QString(connSecurity802_1xSetting->privateKey()));
result.insert("802.1xTlsUserKeyPassword", connSecurity802_1xSetting->privateKeyPassword());
break;
case NetworkManager::Security8021xSetting::EapMethodPwd:
result.insert("802.1xAuthMode", ConnectionSettingsEngine::Security802_1xAuthPwd);
result.insert("802.1xPwdUsername", connSecurity802_1xSetting->identity());
result.insert("802.1xPwdPassword", connSecurity802_1xSetting->password());
break;
case NetworkManager::Security8021xSetting::EapMethodFast:
result.insert("802.1xAuthMode", ConnectionSettingsEngine::Security802_1xAuthFast);
result.insert("802.1xFastAnonymousIdentity", connSecurity802_1xSetting->anonymousIdentity());
switch (connSecurity802_1xSetting->phase1FastProvisioning()) {
case NetworkManager::Security8021xSetting::FastProvisioningAllowUnauthenticated:
result.insert("802.1xFastProvisioningMode", ConnectionSettingsEngine::Security802_1xFastProvisioningAnonymous);
break;
case NetworkManager::Security8021xSetting::FastProvisioningAllowAuthenticated:
result.insert("802.1xFastProvisioningMode", ConnectionSettingsEngine::Security802_1xFastProvisioningAuthenticated);
break;
case NetworkManager::Security8021xSetting::FastProvisioningAllowBoth:
result.insert("802.1xFastProvisioningMode", ConnectionSettingsEngine::Security802_1xFastProvisioningBoth);
break;
default:
result.insert("802.1xFastProvisioningMode", ConnectionSettingsEngine::Security802_1xFastProvisioningOff);
break;
}
result.insert("802.1xFastPacFile", connSecurity802_1xSetting->pacFile());
switch (connSecurity802_1xSetting->phase2AuthMethod()) {
case NetworkManager::Security8021xSetting::AuthMethodGtc:
result.insert("802.1xFastAuthMethod", ConnectionSettingsEngine::Security802_1xAuthMethodGtc);
break;
case NetworkManager::Security8021xSetting::AuthMethodMschapv2:
result.insert("802.1xFastAuthMethod", ConnectionSettingsEngine::Security802_1xAuthMethodMschapv2);
break;
default:
result.insert("802.1xFastAuthMethod", ConnectionSettingsEngine::Security802_1xAuthMethodUnknown);
break;
}
result.insert("802.1xFastUsername", connSecurity802_1xSetting->identity());
result.insert("802.1xFastPassword", connSecurity802_1xSetting->password());
break;
case NetworkManager::Security8021xSetting::EapMethodTtls:
result.insert("802.1xAuthMode", ConnectionSettingsEngine::Security802_1xAuthTtls);
result.insert("802.1xTtlsAnonymousIdentity", connSecurity802_1xSetting->anonymousIdentity());
result.insert("802.1xTtlsDomain", connSecurity802_1xSetting->domainSuffixMatch());
result.insert("802.1xTtlsCaCertificate", QString(connSecurity802_1xSetting->caCertificate()));
switch (connSecurity802_1xSetting->phase2AuthMethod()) {
case NetworkManager::Security8021xSetting::AuthMethodPap:
result.insert("802.1xTtlsAuthMethod", ConnectionSettingsEngine::Security802_1xAuthMethodPap);
break;
case NetworkManager::Security8021xSetting::AuthMethodChap:
result.insert("802.1xTtlsAuthMethod", ConnectionSettingsEngine::Security802_1xAuthMethodChap);
break;
case NetworkManager::Security8021xSetting::AuthMethodMschap:
result.insert("802.1xTtlsAuthMethod", ConnectionSettingsEngine::Security802_1xAuthMethodMschap);
break;
case NetworkManager::Security8021xSetting::AuthMethodMschapv2:
result.insert("802.1xTtlsAuthMethod", ConnectionSettingsEngine::Security802_1xAuthMethodMschapv2);
break;
default:
;
}
result.insert("802.1xTtlsUsername", connSecurity802_1xSetting->identity());
result.insert("802.1xTtlsPassword", connSecurity802_1xSetting->password());
break;
case NetworkManager::Security8021xSetting::EapMethodPeap:
result.insert("802.1xAuthMode", ConnectionSettingsEngine::Security802_1xAuthPeap);
result.insert("802.1xPeapAnonymousIdentity", connSecurity802_1xSetting->anonymousIdentity());
result.insert("802.1xPeapDomain", connSecurity802_1xSetting->domainSuffixMatch());
result.insert("802.1xPeapCaCertificate", QString(connSecurity802_1xSetting->caCertificate()));
switch (connSecurity802_1xSetting->phase1PeapVersion()) {
case NetworkManager::Security8021xSetting::PeapVersionUnknown:
result.insert("802.1xPeapVersion", ConnectionSettingsEngine::Security802_1xPeapVersionUnknown);
break;
case NetworkManager::Security8021xSetting::PeapVersionZero:
result.insert("802.1xPeapVersion", ConnectionSettingsEngine::Security802_1xPeapVersionZero);
break;
case NetworkManager::Security8021xSetting::PeapVersionOne:
result.insert("802.1xPeapVersion", ConnectionSettingsEngine::Security802_1xPeapVersionOne);
break;
}
switch (connSecurity802_1xSetting->phase2AuthMethod()) {
case NetworkManager::Security8021xSetting::AuthMethodMschapv2:
result.insert("802.1xPeapAuthMethod", ConnectionSettingsEngine::Security802_1xAuthMethodMschapv2);
break;
case NetworkManager::Security8021xSetting::AuthMethodMd5:
result.insert("802.1xPeapAuthMethod", ConnectionSettingsEngine::Security802_1xAuthMethodMd5);
break;
case NetworkManager::Security8021xSetting::AuthMethodGtc:
result.insert("802.1xPeapAuthMethod", ConnectionSettingsEngine::Security802_1xAuthMethodGtc);
break;
default:
;
}
result.insert("802.1xPeapUsername", connSecurity802_1xSetting->identity());
result.insert("802.1xPeapPassword", connSecurity802_1xSetting->password());
break;
default:
;
}
} else {
result.insert("802.1xEnabled", false);
}
} else {
result.insert("802.1xEnabled", false);
}
if (!connWiredSetting.isNull()) {
result.insert("clonedMacAddress", NetworkManager::macAddressAsString(connWiredSetting->clonedMacAddress()));
result.insert("mtu", connWiredSetting->mtu());
if (connWiredSetting->autoNegotiate()) {
result.insert("autoLinkNegotiation", ConnectionSettingsEngine::NegotiationAutomatic);
result.insert("linkSpeed", ConnectionSettingsEngine::SpeedUnknown);
result.insert("duplexMode", ConnectionSettingsEngine::DuplexUnknown);
} else if (connWiredSetting->speed() != 0 && connWiredSetting->duplexType() != NetworkManager::WiredSetting::UnknownDuplexType) {
result.insert("autoLinkNegotiation", ConnectionSettingsEngine::NegotiationManual);
switch (connWiredSetting->speed()) {
case 10:
result.insert("linkSpeed", ConnectionSettingsEngine::Speed10Mbps);
break;
case 100:
result.insert("linkSpeed", ConnectionSettingsEngine::Speed100Mbps);
break;
case 1000:
result.insert("linkSpeed", ConnectionSettingsEngine::Speed1Gbps);
break;
case 2500:
result.insert("linkSpeed", ConnectionSettingsEngine::Speed2_5Gbps);
break;
case 5000:
result.insert("linkSpeed", ConnectionSettingsEngine::Speed5Gbps);
break;
case 10000:
result.insert("linkSpeed", ConnectionSettingsEngine::Speed10Gbps);
break;
case 40000:
result.insert("linkSpeed", ConnectionSettingsEngine::Speed40Gbps);
break;
case 100000:
result.insert("linkSpeed", ConnectionSettingsEngine::Speed100Gbps);
break;
}
switch (connWiredSetting->duplexType()) {
case NetworkManager::WiredSetting::UnknownDuplexType:
result.insert("duplexType", ConnectionSettingsEngine::DuplexUnknown);
break;
case NetworkManager::WiredSetting::Half:
result.insert("duplexType", ConnectionSettingsEngine::DuplexHalf);
break;
case NetworkManager::WiredSetting::Full:
result.insert("duplexType", ConnectionSettingsEngine::DuplexFull);
break;
}
result.insert("duplexMode", connWiredSetting->duplexType());
} else {
result.insert("autoLinkNegotiation", ConnectionSettingsEngine::NegotiationIgnore);
result.insert("linkSpeed", ConnectionSettingsEngine::SpeedUnknown);
result.insert("duplexMode", ConnectionSettingsEngine::DuplexUnknown);
}
} else if (!connWirelessSetting.isNull()) {
result.insert("clonedMacAddress", NetworkManager::macAddressAsString(connWirelessSetting->clonedMacAddress()));
result.insert("mtu", connWirelessSetting->mtu());
}
// TODO: pick up here
return result;
}
void ConnectionSettingsEngine::modifyConnectionSettings(QString connUuidStr, QVariantMap settings)
{
// Contains adapted code from plasma-nm
wipeClonedMacAddress = false;
bool ensure802_1xSettings = false;
NetworkManager::Connection::Ptr conn = NetworkManager::findConnectionByUuid(connUuidStr);
NetworkManager::ConnectionSettings::Ptr connSettings = conn->settings();
NetworkManager::WiredSetting::Ptr connWiredSetting = connSettings->setting(NetworkManager::Setting::Wired).dynamicCast<NetworkManager::WiredSetting>();
NetworkManager::WirelessSetting::Ptr connWirelessSetting = connSettings->setting(NetworkManager::Setting::Wireless).dynamicCast<NetworkManager::WirelessSetting>();
NetworkManager::Security8021xSetting secSetting;
if (settings["connName"].isValid()) {
connSettings->setId(settings["connName"].toString());
}
if (settings["autoconnectEnabled"].isValid()) {
connSettings->setAutoconnect(settings["autoconnectEnabled"].toBool());
}
if (settings["autoconnectPriority"].isValid()) {
connSettings->setAutoconnectPriority(settings["autoconnectPriority"].toInt());
}
if (settings["allUsersMayConnect"].isValid()) {
if (settings["allUsersMayConnect"].toBool()) {
connSettings->setPermissions(QHash<QString, QString>());
} else {
if (connSettings->permissions().isEmpty()) {
connSettings->addToPermissions(userName(), QString());
} // Otherwise we just leave the permissions as-is
}
}
if (settings["vpnAutoconnectEnabled"].isValid()) {
if (settings["vpnAutoconnectEnabled"].toBool()) {
connSettings->setSecondaries(QStringList() << settings["autoconnectVpn"].toString());
}
}
if (settings["meteredConnection"].isValid()) {
switch (settings["meteredConnection"].toInt()) {
case ConnectionSettingsEngine::MeteredAutomatic:
connSettings->setMetered(NetworkManager::ConnectionSettings::MeteredUnknown);
break;
case ConnectionSettingsEngine::MeteredYes:
connSettings->setMetered(NetworkManager::ConnectionSettings::MeteredYes);
break;
case ConnectionSettingsEngine::MeteredNo:
connSettings->setMetered(NetworkManager::ConnectionSettings::MeteredNo);
break;
}
}
if (settings["device"].isValid()) {
connSettings->setInterfaceName(settings["device"].toString());
}
if (settings["802.1xEnabled"].isValid() && settings["802.1xEnabled"].toBool()) {
NetworkManager::Security8021xSetting secSetting;
QList<NetworkManager::Security8021xSetting::EapMethod> eapMethodsList;
switch (settings["802.1xAuthMode"].toInt()) {
case ConnectionSettingsEngine::Security802_1xAuthMd5:
eapMethodsList.append(NetworkManager::Security8021xSetting::EapMethodMd5);
secSetting.setIdentity(settings["802.1xMd5Username"].toString());
secSetting.setPassword(settings["802.1xMd5Password"].toString());
break;
case ConnectionSettingsEngine::Security802_1xAuthTls:
eapMethodsList.append(NetworkManager::Security8021xSetting::EapMethodTls);
secSetting.setIdentity(settings["802.1xTlsIdentity"].toString());
secSetting.setDomainSuffixMatch(settings["802.1xTlsDomain"].toString());
secSetting.setCaCertificate(settings["802.1xTlsCaCertificate"].toString().toUtf8().append('\0'));
secSetting.setClientCertificate(settings["802.1xTlsUserCertificate"].toString().toUtf8().append('\0'));
secSetting.setPrivateKey(settings["802.1xTlsUserPrivateKey"].toString().toUtf8().append('\0'));
secSetting.setPrivateKeyPassword(settings["802.1xTlsUserKeyPassword"].toString());
break;
case ConnectionSettingsEngine::Security802_1xAuthPwd:
eapMethodsList.append(NetworkManager::Security8021xSetting::EapMethodPwd);
secSetting.setIdentity(settings["802.1xPwdUsername"].toString());
secSetting.setPassword(settings["802.1xPwdPassword"].toString());
break;
case ConnectionSettingsEngine::Security802_1xAuthFast:
eapMethodsList.append(NetworkManager::Security8021xSetting::EapMethodFast);
secSetting.setAnonymousIdentity(settings["802.1xFastAnonymousIdentity"].toString());
switch (settings["802.1xFastProvisioningMode"].toInt()) {
case ConnectionSettingsEngine::Security802_1xFastProvisioningAnonymous:
secSetting.setPhase1FastProvisioning(NetworkManager::Security8021xSetting::FastProvisioningAllowUnauthenticated);
break;
case ConnectionSettingsEngine::Security802_1xFastProvisioningAuthenticated:
secSetting.setPhase1FastProvisioning(NetworkManager::Security8021xSetting::FastProvisioningAllowAuthenticated);
break;
case ConnectionSettingsEngine::Security802_1xFastProvisioningBoth:
secSetting.setPhase1FastProvisioning(NetworkManager::Security8021xSetting::FastProvisioningAllowBoth);
break;
default:
secSetting.setPhase1FastProvisioning(NetworkManager::Security8021xSetting::FastProvisioningDisabled);
break;
}
secSetting.setPacFile(settings["802.1xFastPacFile"].toString());
switch (settings["802.1xFastAuthMethod"].toInt()) {
case ConnectionSettingsEngine::Security802_1xAuthMethodGtc:
secSetting.setPhase2AuthMethod(NetworkManager::Security8021xSetting::AuthMethodGtc);
break;
case ConnectionSettingsEngine::Security802_1xAuthMethodMschapv2:
secSetting.setPhase2AuthMethod(NetworkManager::Security8021xSetting::AuthMethodMschapv2);
break;
default:
secSetting.setPhase2AuthMethod(NetworkManager::Security8021xSetting::AuthMethodUnknown);
break;
}
secSetting.setIdentity(settings["802.1xFastUsername"].toString());
secSetting.setPassword(settings["802.1xFastPassword"].toString());
break;
case ConnectionSettingsEngine::Security802_1xAuthTtls:
eapMethodsList.append(NetworkManager::Security8021xSetting::EapMethodTtls);
secSetting.setAnonymousIdentity(settings["802.1xTtlsAnonymousIdentity"].toString());
secSetting.setDomainSuffixMatch(settings["802.1xTtleAnonymousIdentity"].toString());
secSetting.setCaCertificate(settings["802.1xTtlsCaCertificate"].toString().toUtf8().append('\0'));
switch (settings["802.1xTtlsAuthMethod"].toInt()) {
case ConnectionSettingsEngine::Security802_1xAuthMethodPap:
secSetting.setPhase2AuthMethod(NetworkManager::Security8021xSetting::AuthMethodPap);
break;
case ConnectionSettingsEngine::Security802_1xAuthMethodChap:
secSetting.setPhase2AuthMethod(NetworkManager::Security8021xSetting::AuthMethodChap);
break;
case ConnectionSettingsEngine::Security802_1xAuthMethodMschap:
secSetting.setPhase2AuthMethod(NetworkManager::Security8021xSetting::AuthMethodMschap);
break;
case ConnectionSettingsEngine::Security802_1xAuthMethodMschapv2:
secSetting.setPhase2AuthMethod(NetworkManager::Security8021xSetting::AuthMethodMschapv2);
break;
default:
;
}
secSetting.setIdentity(settings["802.1xTtlsUsername"].toString());
secSetting.setPassword(settings["802.1xTtlsPassword"].toString());
break;
case ConnectionSettingsEngine::Security802_1xAuthPeap:
eapMethodsList.append(NetworkManager::Security8021xSetting::EapMethodPeap);
secSetting.setAnonymousIdentity(settings["802.1xPeapAnonymousIdentity"].toString());
secSetting.setDomainSuffixMatch(settings["802.1xPeapAnonymousIdentity"].toString());
secSetting.setCaCertificate(settings["802.1xPeapCaCertificate"].toString().toUtf8().append('\0'));
switch (settings["802.1xPeapVersion"].toInt()) {
case ConnectionSettingsEngine::Security802_1xPeapVersionUnknown:
secSetting.setPhase1PeapVersion(NetworkManager::Security8021xSetting::PeapVersionUnknown);
break;
case ConnectionSettingsEngine::Security802_1xPeapVersionZero:
secSetting.setPhase1PeapVersion(NetworkManager::Security8021xSetting::PeapVersionZero);
break;
case ConnectionSettingsEngine::Security802_1xPeapVersionOne:
secSetting.setPhase1PeapVersion(NetworkManager::Security8021xSetting::PeapVersionOne);
break;
}
switch (settings["802.1xPeapAuthMethod"].toInt()) {
case ConnectionSettingsEngine::Security802_1xAuthMethodMschapv2:
secSetting.setPhase2AuthMethod(NetworkManager::Security8021xSetting::AuthMethodMschapv2);
break;
case ConnectionSettingsEngine::Security802_1xAuthMethodMd5:
secSetting.setPhase2AuthMethod(NetworkManager::Security8021xSetting::AuthMethodMd5);
break;
case ConnectionSettingsEngine::Security802_1xAuthMethodGtc:
secSetting.setPhase2AuthMethod(NetworkManager::Security8021xSetting::AuthMethodGtc);
break;
default:
;
}
secSetting.setIdentity(settings["802.1xPeapUsername"].toString());
secSetting.setPassword(settings["802.1xPeapPassword"].toString());
break;
}
secSetting.setEapMethods(eapMethodsList);
ensure802_1xSettings = true;
} else {
ensure802_1xSettings = false;
}
QByteArray macBin = NetworkManager::macAddressFromString(settings["clonedMacAddress"].toString());
if (settings["clonedMacAddress"].toString().length() != 17) {
wipeClonedMacAddress = true;
}
if (!connWiredSetting.isNull()) {
if (!wipeClonedMacAddress) {
connWiredSetting->setClonedMacAddress(macBin);
}
if (settings["mtu"].isValid()) {
connWiredSetting->setMtu(settings["mtu"].toUInt());
}
if (settings["autoLinkNegotiation"].isValid()) {
if (settings["autoLinkNegotiation"].toInt() == ConnectionSettingsEngine::NegotiationAutomatic) {
connWiredSetting->setAutoNegotiate(true);
connWiredSetting->setSpeed(0);
connWiredSetting->setDuplexType(NetworkManager::WiredSetting::UnknownDuplexType);
} else if (settings["autoLinkNegotiation"].toInt() == ConnectionSettingsEngine::NegotiationManual) {
connWiredSetting->setAutoNegotiate(false);
switch (settings["linkSpeed"].toInt()) {
case ConnectionSettingsEngine::Speed10Mbps:
connWiredSetting->setSpeed(10);
break;
case ConnectionSettingsEngine::Speed100Mbps:
connWiredSetting->setSpeed(100);
break;
case ConnectionSettingsEngine::Speed1Gbps:
connWiredSetting->setSpeed(1000);
break;
case ConnectionSettingsEngine::Speed2_5Gbps:
connWiredSetting->setSpeed(2500);
break;
case ConnectionSettingsEngine::Speed5Gbps:
connWiredSetting->setSpeed(5000);
break;
case ConnectionSettingsEngine::Speed10Gbps:
connWiredSetting->setSpeed(10000);
break;
case ConnectionSettingsEngine::Speed40Gbps:
connWiredSetting->setSpeed(40000);
break;
case ConnectionSettingsEngine::Speed100Gbps:
connWiredSetting->setSpeed(100000);
break;
}
switch (settings["duplexMode"].toInt()) {
case ConnectionSettingsEngine::DuplexUnknown:
connWiredSetting->setDuplexType(NetworkManager::WiredSetting::UnknownDuplexType);
break;
case ConnectionSettingsEngine::DuplexHalf:
connWiredSetting->setDuplexType(NetworkManager::WiredSetting::Half);
break;
case ConnectionSettingsEngine::DuplexFull:
connWiredSetting->setDuplexType(NetworkManager::WiredSetting::Full);
break;
}
} else {
connWiredSetting->setAutoNegotiate(false);
connWiredSetting->setSpeed(0);
connWiredSetting->setDuplexType(NetworkManager::WiredSetting::UnknownDuplexType);
}
}
} else if (!connWirelessSetting.isNull()) {
if (!wipeClonedMacAddress) {
connWirelessSetting->setClonedMacAddress(macBin);
}
if (settings["mtu"].isValid()) {
connWirelessSetting->setMtu(settings["mtu"].toUInt());
}
}
// TODO: pick up here
targetConnUuidStr = connUuidStr;
NMVariantMapMap connSettingsMap = connSettings->toMap();
connSettingsMap.remove("802-1x");
if (ensure802_1xSettings) {
connSettingsMap.insert("802-1x", secSetting.toMap());
}
QDBusPendingReply<> reply = conn->update(connSettingsMap);
auto watcher = new QDBusPendingCallWatcher(reply);
QObject::connect(watcher, &QDBusPendingCallWatcher::finished, saveReplyFinished);
}
void ConnectionSettingsEngine::saveReplyFinished()
{
NetworkManager::Connection::Ptr conn = NetworkManager::findConnectionByUuid(targetConnUuidStr);
NetworkManager::ConnectionSettings::Ptr connSettings = conn->settings();
NetworkManager::WiredSetting::Ptr connWiredSetting = connSettings->setting(NetworkManager::Setting::Wired).dynamicCast<NetworkManager::WiredSetting>();
NetworkManager::WirelessSetting::Ptr connWirelessSetting = connSettings->setting(NetworkManager::Setting::Wireless).dynamicCast<NetworkManager::WirelessSetting>();
if (wipeClonedMacAddress) {
// Wiping a MAC address with NetworkManagerQt is surprisingly difficult, so we do it with nmcli instead.
QProcess clonedMacWiper;
clonedMacWiper.setProgram("bash");
if (!connWiredSetting.isNull()) {
clonedMacWiper.setArguments(QStringList() << QString("-c") << QString("nmcli connection modify %1 ethernet.cloned-mac-address \"\"").arg(conn->uuid()));
clonedMacWiper.start();
clonedMacWiper.waitForFinished();
} else if (!connWirelessSetting.isNull()) {
clonedMacWiper.setArguments(QStringList() << QString("-c") << QString("nmcli connection modify %1 wifi.cloned-mac-address \"\"").arg(conn->uuid()));
clonedMacWiper.start();
clonedMacWiper.waitForFinished();
}
}
}
QString ConnectionSettingsEngine::userName()
{
QProcess userNameGetter;
userNameGetter.setProgram("whoami");
userNameGetter.start();
userNameGetter.waitForFinished();
return QString(userNameGetter.readAllStandardOutput());
}