Convert config widgets to new API

pull/1/head
Timothy Pearson 12 years ago
parent 4e6c7c0e4e
commit 9dce208848

@ -41,17 +41,6 @@
<cstring>mNetworkId</cstring>
</property>
</widget>
<widget class="TQLabel" row="3" column="0">
<property name="name">
<cstring>textLabel2_2_2</cstring>
</property>
<property name="text">
<string>PU&amp;K:</string>
</property>
<property name="buddy" stdset="0">
<cstring>mUsername</cstring>
</property>
</widget>
<widget class="TQLabel" row="0" column="2">
<property name="name">
<cstring>textLabel1</cstring>
@ -79,22 +68,22 @@
</item>
<item>
<property name="text">
<string>GPRS</string>
<string>Only 3G</string>
</property>
</item>
<item>
<property name="text">
<string>GSM</string>
<string>Only GPRS/EDGE</string>
</property>
</item>
<item>
<property name="text">
<string>Prefer GPRS</string>
<string>Prefer 3G</string>
</property>
</item>
<item>
<property name="text">
<string>Prefer GSM</string>
<string>Prefer 2G</string>
</property>
</item>
<property name="name">
@ -151,17 +140,6 @@
<cstring>mBand</cstring>
</property>
</widget>
<widget class="TQLineEdit" row="3" column="1">
<property name="name">
<cstring>mPuk</cstring>
</property>
<property name="toolTip" stdset="0">
<string>Personal Unblocking Code</string>
</property>
<property name="whatsThis" stdset="0">
<string> A code used to unblock a blocked SIM card</string>
</property>
</widget>
<widget class="TQSpinBox" row="4" column="3">
<property name="name">
<cstring>mBand</cstring>
@ -283,7 +261,6 @@
<tabstop>mUsername</tabstop>
<tabstop>mPassword</tabstop>
<tabstop>mPin</tabstop>
<tabstop>mPuk</tabstop>
<tabstop>mNumber</tabstop>
<tabstop>mApn</tabstop>
<tabstop>mNetworkId</tabstop>

@ -210,14 +210,6 @@
<string>Require MPPE</string>
</property>
</widget>
<widget class="TQCheckBox" row="5" column="1">
<property name="name">
<cstring>mRequireMppc</cstring>
</property>
<property name="text">
<string>Require MPPC</string>
</property>
</widget>
<widget class="TQCheckBox" row="5" column="0">
<property name="name">
<cstring>mRefuseMschapV2</cstring>
@ -308,7 +300,6 @@
<tabstop>mRequireMppe</tabstop>
<tabstop>mRequireMppe128</tabstop>
<tabstop>mStatefulMppe</tabstop>
<tabstop>mRequireMppc</tabstop>
<tabstop>mCrtscts</tabstop>
<tabstop>mBaudRate</tabstop>
<tabstop>mMru</tabstop>

@ -56,9 +56,13 @@ CDMAWidgetImpl::CDMAWidgetImpl(TDENetworkConnection* conn, TQWidget* parent, con
void
CDMAWidgetImpl::Init()
{
_mainWid->mUsername->setText( _cdmasetting->getUsername() );
_mainWid->mPassword->setText( _cdmasetting->getPassword( ) );
_mainWid->mNumber->setText( _cdmasetting->getNumber() );
if (_cdmasetting->cdmaConfig.valid) {
_mainWid->mUsername->setText( _cdmasetting->cdmaConfig.username );
_mainWid->mNumber->setText( _cdmasetting->cdmaConfig.providerDataNumber );
if (_cdmasetting->cdmaConfig.secretsValid) {
_mainWid->mPassword->setText( _cdmasetting->cdmaConfig.password );
}
}
connect( _mainWid->mUsername, TQT_SIGNAL(textChanged(const TQString&)), TQT_SLOT(dirty()));
connect( _mainWid->mPassword, TQT_SIGNAL(textChanged(const TQString&)), TQT_SLOT(dirty()));
connect( _mainWid->mNumber, TQT_SIGNAL(textChanged(const TQString&)), TQT_SLOT(dirty()));
@ -78,9 +82,11 @@ CDMAWidgetImpl::Activate()
void
CDMAWidgetImpl::dirty()
{
_cdmasetting->setUsername( _mainWid->mUsername->text() );
_cdmasetting->setPassword( _mainWid->mPassword->text() );
_cdmasetting->setNumber( _mainWid->mNumber->text() );
_cdmasetting->cdmaConfig.username = _mainWid->mUsername->text();
_cdmasetting->cdmaConfig.password = _mainWid->mPassword->text();
_cdmasetting->cdmaConfig.providerDataNumber = _mainWid->mNumber->text();
_cdmasetting->cdmaConfig.valid = true;
_cdmasetting->cdmaConfig.secretsValid = true;
}

@ -35,19 +35,17 @@
#include <kuser.h>
// knm headers
#include "knetworkmanager-connection.h"
#include "knetworkmanager-connection_setting_gsm.h"
#include "knetworkmanager-connection_setting_gsm_widget.h"
#include "knetworkmanager-device.h"
#include "connection_setting_gsm.h"
using namespace ConnectionSettings;
GSMWidgetImpl::GSMWidgetImpl(Connection* conn, TQWidget* parent, const char* name, WFlags fl)
GSMWidgetImpl::GSMWidgetImpl(TDENetworkConnection* conn, TQWidget* parent, const char* name, WFlags fl)
: WidgetInterface(parent, name, fl)
{
_gsmsetting = dynamic_cast<ConnectionSettings::GSM*> (conn->getSetting(NM_SETTING_GSM_SETTING_NAME));
_gsmsetting = dynamic_cast<TDEModemConnection*>(conn);
TQVBoxLayout* layout = new TQVBoxLayout(this, 1, 1);
_mainWid = new ConnectionSettingGsmWidget(this);
@ -59,20 +57,22 @@ GSMWidgetImpl::GSMWidgetImpl(Connection* conn, TQWidget* parent, const char* nam
void
GSMWidgetImpl::Init()
{
_mainWid->mUsername->setText( _gsmsetting->getUsername() );
_mainWid->mPassword->setText( _gsmsetting->getPassword( ) );
_mainWid->mPin->setText( _gsmsetting->getPin() );
_mainWid->mPuk->setText( _gsmsetting->getPuk() );
_mainWid->mNumber->setText( _gsmsetting->getNumber() );
_mainWid->mApn->setText( _gsmsetting->getAPN() );
_mainWid->mNetworkId->setText( _gsmsetting->getNetworkID( ));
_mainWid->mNetworkType->setCurrentItem( _gsmsetting->getNetworkType( ) +1);
_mainWid->mBand->setValue( _gsmsetting->getBand() );
if (_gsmsetting->gsmConfig.valid) {
_mainWid->mUsername->setText( _gsmsetting->gsmConfig.username );
_mainWid->mNumber->setText( _gsmsetting->gsmConfig.providerDataNumber );
_mainWid->mApn->setText( _gsmsetting->gsmConfig.accessPointName );
_mainWid->mNetworkId->setText( _gsmsetting->gsmConfig.networkID );
setNetworkType( _gsmsetting->gsmConfig.networkType );
_mainWid->mBand->setValue( _gsmsetting->gsmConfig.allowedFrequencyBands );
if (_gsmsetting->gsmConfig.secretsValid) {
_mainWid->mPassword->setText( _gsmsetting->gsmConfig.password );
_mainWid->mPin->setText( _gsmsetting->gsmConfig.pin );
}
}
connect( _mainWid->mUsername, TQT_SIGNAL(textChanged(const TQString&)), TQT_SLOT(dirty()));
connect( _mainWid->mPassword, TQT_SIGNAL(textChanged(const TQString&)), TQT_SLOT(dirty()));
connect( _mainWid->mPin, TQT_SIGNAL(textChanged(const TQString&)), TQT_SLOT(dirty()));
connect( _mainWid->mPuk, TQT_SIGNAL(textChanged(const TQString&)), TQT_SLOT(dirty()));
connect( _mainWid->mNumber, TQT_SIGNAL(textChanged(const TQString&)), TQT_SLOT(dirty()));
connect( _mainWid->mApn, TQT_SIGNAL(textChanged(const TQString&)), TQT_SLOT(dirty()));
connect( _mainWid->mNetworkId, TQT_SIGNAL(textChanged(const TQString&)), TQT_SLOT(dirty()));
@ -94,15 +94,64 @@ GSMWidgetImpl::Activate()
void
GSMWidgetImpl::dirty()
{
_gsmsetting->setUsername( _mainWid->mUsername->text() );
_gsmsetting->setPassword( _mainWid->mPassword->text() );
_gsmsetting->setPin( _mainWid->mPin->text() );
_gsmsetting->setPuk( _mainWid->mPuk->text() );
_gsmsetting->setNumber( _mainWid->mNumber->text() );
_gsmsetting->setAPN( _mainWid->mApn->text() );
_gsmsetting->setNetworkID( _mainWid->mNetworkId->text() );
_gsmsetting->setNetworkType( _mainWid->mNetworkType->currentItem() - 1 );
_gsmsetting->setBand( _mainWid->mBand->value() );
_gsmsetting->gsmConfig.username = _mainWid->mUsername->text();
_gsmsetting->gsmConfig.password = _mainWid->mPassword->text();
_gsmsetting->gsmConfig.pin = _mainWid->mPin->text();
_gsmsetting->gsmConfig.providerDataNumber = _mainWid->mNumber->text();
_gsmsetting->gsmConfig.accessPointName = _mainWid->mApn->text();
_gsmsetting->gsmConfig.networkID = _mainWid->mNetworkId->text();
_gsmsetting->gsmConfig.networkType = getNetworkType();
_gsmsetting->gsmConfig.allowedFrequencyBands = _mainWid->mBand->value();
_gsmsetting->gsmConfig.valid = true;
_gsmsetting->gsmConfig.secretsValid = true;
}
void
GSMWidgetImpl::setNetworkType(TDEGSMNetworkType::TDEGSMNetworkType type)
{
if (type == TDEGSMNetworkType::Any) {
_mainWid->mBand->setValue(0);
}
else if (type == TDEGSMNetworkType::Only3G) {
_mainWid->mBand->setValue(1);
}
else if (type == TDEGSMNetworkType::GPRSEdge) {
_mainWid->mBand->setValue(2);
}
else if (type == TDEGSMNetworkType::Prefer3G) {
_mainWid->mBand->setValue(3);
}
else if (type == TDEGSMNetworkType::Prefer2G) {
_mainWid->mBand->setValue(4);
}
else {
_mainWid->mBand->setValue(0);
}
}
TDEGSMNetworkType::TDEGSMNetworkType
GSMWidgetImpl::getNetworkType()
{
int itemNo = _mainWid->mNetworkType->currentItem();
if (itemNo == 0) {
return TDEGSMNetworkType::Any;
}
else if (itemNo == 1) {
return TDEGSMNetworkType::Only3G;
}
else if (itemNo == 2) {
return TDEGSMNetworkType::GPRSEdge;
}
else if (itemNo == 3) {
return TDEGSMNetworkType::Prefer3G;
}
else if (itemNo == 4) {
return TDEGSMNetworkType::Prefer2G;
}
else {
return TDEGSMNetworkType::Any;
}
}
#include "knetworkmanager-connection_setting_gsm_widget.moc"

@ -26,14 +26,17 @@
#define KNETWORKMANAGER_CONNECTION_SETTING_GSM_WIDGET_H
// qt headers
// tqt headers
#include <tqwidget.h>
#include <tqlineedit.h>
// tde headers
#include <tdehardwaredevices.h>
#include <tdenetworkconnections.h>
// knm headers
#include "knetworkmanager-connection_setting_gsm.h"
#include "knetworkmanager-connection_setting_widget_interface.h"
#include "knetworkmanager-device.h"
//class VPNService;
class ConnectionSettingGsmWidget;
@ -48,7 +51,7 @@ class GSMWidgetImpl : public WidgetInterface
Q_OBJECT
public:
GSMWidgetImpl(Connection* conn, TQWidget* parent = NULL, const char* name = NULL, WFlags fl = 0);
GSMWidgetImpl(TDENetworkConnection* conn, TQWidget* parent = NULL, const char* name = NULL, WFlags fl = 0);
void Activate();
void Deactivate();
public slots:
@ -58,8 +61,10 @@ class GSMWidgetImpl : public WidgetInterface
void Init();
//VPNConfigWidget* getVPNConfigWidget(VPNService* service);
void setNetworkType(TDEGSMNetworkType::TDEGSMNetworkType);
TDEGSMNetworkType::TDEGSMNetworkType getNetworkType();
GSM* _gsmsetting;
TDEModemConnection* _gsmsetting;
ConnectionSettingGsmWidget* _mainWid;
};

@ -30,17 +30,15 @@
#include <tqlayout.h>
// knm headers
#include "knetworkmanager-connection.h"
#include "knetworkmanager-connection_setting_info.h"
#include "knetworkmanager-connection_setting_info_widget.h"
#include "knetworkmanager-device.h"
using namespace ConnectionSettings;
InfoWidgetImpl::InfoWidgetImpl(Connection* conn, TQWidget* parent, const char* name, WFlags fl)
InfoWidgetImpl::InfoWidgetImpl(TDENetworkConnection* conn, TQWidget* parent, const char* name, WFlags fl)
: WidgetInterface(parent, name, fl)
{
_infosetting = dynamic_cast<ConnectionSettings::Info*> (conn->getSetting(NM_SETTING_CONNECTION_SETTING_NAME));
_infosetting = conn;
TQVBoxLayout* layout = new TQVBoxLayout(this, 1, 1);
@ -60,20 +58,20 @@ InfoWidgetImpl::Init()
void
InfoWidgetImpl::Activate()
{
_mainWid->txtConnectionName->setText(_infosetting->getName());
_mainWid->chkAutoConnect->setChecked(_infosetting->getAutoconnect());
_mainWid->txtConnectionName->setText(_infosetting->friendlyName);
_mainWid->chkAutoConnect->setChecked(_infosetting->autoConnect);
}
void
InfoWidgetImpl::slotNameChanged(const TQString& name)
{
_infosetting->setName(name);
_infosetting->friendlyName = name;
}
void
InfoWidgetImpl::slotAutoconnectChanged(bool autoconnect)
{
_infosetting->setAutoconnect(autoconnect);
_infosetting->autoConnect = autoconnect;
}
#include "knetworkmanager-connection_setting_info_widget.moc"

@ -27,14 +27,17 @@
#define KNETWORKMANAGER_CONNECTION_SETTING_INFO_WIDGET_H
// qt headers
// tqt headers
#include <tqwidget.h>
#include <tqlineedit.h>
// tde headers
#include <tdehardwaredevices.h>
#include <tdenetworkconnections.h>
// knm headers
#include "connection_setting_info.h"
#include "knetworkmanager-connection_setting_widget_interface.h"
#include "knetworkmanager-device.h"
namespace ConnectionSettings
{
@ -47,7 +50,7 @@ class InfoWidgetImpl : public WidgetInterface
Q_OBJECT
public:
InfoWidgetImpl(Connection* conn, TQWidget* parent = NULL, const char* name = NULL, WFlags fl = 0);
InfoWidgetImpl(TDENetworkConnection* conn, TQWidget* parent = NULL, const char* name = NULL, WFlags fl = 0);
void Activate();
public slots:
@ -57,7 +60,7 @@ class InfoWidgetImpl : public WidgetInterface
private:
void Init();
Info* _infosetting;
TDENetworkConnection* _infosetting;
ConnectionSettingInfoWidget* _mainWid;
};

@ -36,10 +36,10 @@ using namespace ConnectionSettings;
#define IP_INPUT_MASK "900.900.900.900"
IPv4WidgetImpl::IPv4WidgetImpl(Connection* conn, TQWidget* parent, const char* name, WFlags fl)
IPv4WidgetImpl::IPv4WidgetImpl(TDENetworkConnection* conn, TQWidget* parent, const char* name, WFlags fl)
: WidgetInterface(parent, name, fl)
{
_ipv4_setting = dynamic_cast<ConnectionSettings::IPv4*> (conn->getSetting(NM_SETTING_IP4_CONFIG_SETTING_NAME));
_ipv4_setting = conn;
TQVBoxLayout* layout = new TQVBoxLayout(this, 1, 1);
_mainWid = new ConnectionSettingIPv4Widget(this);
@ -51,7 +51,7 @@ IPv4WidgetImpl::IPv4WidgetImpl(Connection* conn, TQWidget* parent, const char* n
void
IPv4WidgetImpl::Init()
{
_mainWid->groupIPConfig->setChecked(_ipv4_setting->getMethod() == IPv4::METHOD_MANUAL);
_mainWid->groupIPConfig->setChecked(!(_ipv4_setting->ipConfig.connectionFlags & TDENetworkIPConfigurationFlags::IPV4DHCPIP));
connect(_mainWid->groupIPConfig, TQT_SIGNAL(toggled(bool)), this, TQT_SLOT(slotIPConfigEnabled(bool)));
@ -59,26 +59,34 @@ IPv4WidgetImpl::Init()
_mainWid->txtNetmask->setInputMask(IP_INPUT_MASK);
_mainWid->txtGateway->setInputMask(IP_INPUT_MASK);
if (!_ipv4_setting->getAddresses().isEmpty())
if (!_ipv4_setting->ipConfig.ipConfigurations.isEmpty())
{
_mainWid->txtIP->setText(_ipv4_setting->getAddresses()[0].address.toString());
_mainWid->txtNetmask->setText(_ipv4_setting->getAddresses()[0].netmask.toString());
_mainWid->txtGateway->setText(_ipv4_setting->getAddresses()[0].gateway.toString());
_mainWid->txtIP->setText(_ipv4_setting->ipConfig.ipConfigurations[0].ipAddress.toString());
_mainWid->txtNetmask->setText(_ipv4_setting->ipConfig.ipConfigurations[0].networkMask.toString());
_mainWid->txtGateway->setText(_ipv4_setting->ipConfig.ipConfigurations[0].gateway.toString());
}
if (!_ipv4_setting->getDNS().isEmpty())
if (!_ipv4_setting->ipConfig.resolvers.isEmpty())
{
TQValueList<TQHostAddress> hosts = _ipv4_setting->getDNS();
TDENetworkAddressList hosts = _ipv4_setting->ipConfig.resolvers;
TQStringList list;
for (TQValueList<TQHostAddress>::Iterator it = hosts.begin(); it != hosts.end(); ++it)
for (TDENetworkAddressList::Iterator it = hosts.begin(); it != hosts.end(); ++it)
{
list.append((*it).toString());
}
_mainWid->txtDNSAddresses->setText(list.join(" "));
}
if (!_ipv4_setting->getDNSSearch().isEmpty())
_mainWid->txtDNSSearch->setText(_ipv4_setting->getDNSSearch().join(" "));
if (!_ipv4_setting->ipConfig.searchDomains.isEmpty())
{
TDENetworkSearchDomainList domains = _ipv4_setting->ipConfig.searchDomains;
TQStringList list;
for (TDENetworkSearchDomainList::Iterator it = domains.begin(); it != domains.end(); ++it)
{
list.append((*it).searchDomain());
}
_mainWid->txtDNSSearch->setText(list.join(" "));
}
// connect the signals after setting up the values
connect(_mainWid->txtIP, TQT_SIGNAL(textChanged(const TQString&)), this, TQT_SLOT(slotIPAddressChanged(const TQString&)));
@ -99,14 +107,16 @@ IPv4WidgetImpl::slotDNSAddressesChanged(const TQString& adr)
{
// TODO: use , and ; for splitting too
TQStringList list = TQStringList::split(" ", adr);
TQValueList<TQHostAddress> hosts;
TDENetworkAddressList hosts;
for (TQStringList::Iterator it = list.begin(); it != list.end(); ++it)
{
TQHostAddress host(*it);
if (!host.isNull())
{
hosts.append(host);
}
_ipv4_setting->setDNS(hosts);
}
_ipv4_setting->ipConfig.resolvers = hosts;
}
@ -114,13 +124,30 @@ void
IPv4WidgetImpl::slotDNSSearchChanged(const TQString& search)
{
// TODO: use , and ; for splitting too
_ipv4_setting->setDNSSearch(TQStringList::split(" ", search));
TQStringList list = TQStringList::split(" ", search);
TDENetworkSearchDomainList domains;
for (TQStringList::Iterator it = list.begin(); it != list.end(); ++it)
{
if ((*it) != "") {
TDENetworkSearchDomain domain(*it);
domains.append(domain);
}
}
_ipv4_setting->ipConfig.searchDomains = domains;
}
void
IPv4WidgetImpl::slotIPConfigEnabled(bool enabled)
{
_ipv4_setting->setMethod(enabled ? IPv4::METHOD_MANUAL : IPv4::METHOD_DHCP );
if (enabled)
{
_ipv4_setting->ipConfig.connectionFlags &= (~TDENetworkIPConfigurationFlags::IPV4DHCPIP);
}
else
{
_ipv4_setting->ipConfig.connectionFlags |= TDENetworkIPConfigurationFlags::IPV4DHCPIP;
}
}
void
@ -129,47 +156,54 @@ IPv4WidgetImpl::slotIPAddressChanged(const TQString& ip)
TQHostAddress ipadr(ip);
if (!ipadr.isNull())
{
TQValueList<IPv4Address> addrs = _ipv4_setting->getAddresses();
TDENetworkSingleIPConfigurationList addrs = _ipv4_setting->ipConfig.ipConfigurations;
if (addrs.size() > 0)
addrs[0].address = ipadr;
{
addrs[0].ipAddress = ipadr;
}
else
{
IPv4Address adr;
adr.address = ipadr;
TDENetworkSingleIPConfiguration adr;
adr.ipAddress = ipadr;
addrs.append(adr);
}
_ipv4_setting->setAddresses(addrs);
_ipv4_setting->ipConfig.ipConfigurations = addrs;
// if netmask is not set yet we preset it to a default value depending on the network class
if (_mainWid->txtNetmask->text() == "...")
{
if ( (ipadr.toIPv4Address() & 0xFF000000) < 0xDF000000)
{
if ( (ipadr.toIPv4Address() & 0xFF000000) >= 0xC0000000)
if ( (ipadr.toIPv4Address() & 0xFF000000) >= 0xC0000000) {
_mainWid->txtNetmask->setText("255.255.255.0"); // class C
else if ( (ipadr.toIPv4Address() & 0xFF000000) >= 0x80000000)
}
else if ( (ipadr.toIPv4Address() & 0xFF000000) >= 0x80000000) {
_mainWid->txtNetmask->setText("255.255.0.0"); // class B
else
}
else {
_mainWid->txtNetmask->setText("255.0.0.0"); // class A
}
}
}
}
}
void
IPv4WidgetImpl::slotNetmaskChanged(const TQString& ip)
{
TQValueList<IPv4Address> addrs = _ipv4_setting->getAddresses();
addrs[0].netmask = TQHostAddress(ip);
_ipv4_setting->setAddresses(addrs);
TDENetworkSingleIPConfigurationList addrs = _ipv4_setting->ipConfig.ipConfigurations;
TDENetMask mask;
mask.fromString(ip);
addrs[0].networkMask = mask;
_ipv4_setting->ipConfig.ipConfigurations = addrs;
}
void
IPv4WidgetImpl::slotGatewayChanged(const TQString& ip)
{
TQValueList<IPv4Address> addrs = _ipv4_setting->getAddresses();
TDENetworkSingleIPConfigurationList addrs = _ipv4_setting->ipConfig.ipConfigurations;
addrs[0].gateway = TQHostAddress(ip);
_ipv4_setting->setAddresses(addrs);
_ipv4_setting->ipConfig.ipConfigurations = addrs;
}
#include "knetworkmanager-connection_setting_ipv4_widget.moc"

@ -25,11 +25,14 @@
#ifndef KNETWORKMANAGER_CONNECTION_SETTING_IPV4_WIDGET_H
#define KNETWORKMANAGER_CONNECTION_SETTING_IPV4_WIDGET_H
// qt autogenerated headers
// tde headers
#include <tdehardwaredevices.h>
#include <tdenetworkconnections.h>
// ui headers
#include "connection_setting_ipv4.h"
// knetworkmanager headers
#include "knetworkmanager-connection.h"
#include "knetworkmanager-connection_setting_widget_interface.h"
#include "knetworkmanager-connection_setting_ipv4.h"
@ -43,7 +46,7 @@ namespace ConnectionSettings
public:
IPv4WidgetImpl(Connection* conn, TQWidget* parent = 0, const char* name = 0, WFlags fl = 0);
IPv4WidgetImpl(TDENetworkConnection* conn, TQWidget* parent = 0, const char* name = 0, WFlags fl = 0);
void Activate();
public slots:
@ -57,7 +60,7 @@ namespace ConnectionSettings
private:
void Init();
IPv4* _ipv4_setting;
TDENetworkConnection* _ipv4_setting;
ConnectionSettingIPv4Widget* _mainWid;
};

@ -37,19 +37,17 @@
#include <kuser.h>
// knm headers
#include "knetworkmanager-connection.h"
#include "knetworkmanager-connection_setting_ppp.h"
#include "knetworkmanager-connection_setting_ppp_widget.h"
#include "knetworkmanager-device.h"
#include "connection_setting_ppp.h"
using namespace ConnectionSettings;
PPPWidgetImpl::PPPWidgetImpl(Connection* conn, TQWidget* parent, const char* name, WFlags fl)
PPPWidgetImpl::PPPWidgetImpl(TDENetworkConnection* conn, TQWidget* parent, const char* name, WFlags fl)
: WidgetInterface(parent, name, fl)
{
_pppsetting = dynamic_cast<ConnectionSettings::PPP*> (conn->getSetting(NM_SETTING_PPP_SETTING_NAME));
_pppsetting = conn;
TQVBoxLayout* layout = new TQVBoxLayout(this, 1, 1);
_mainWid = new ConnectionSettingPppWidget(this);
@ -61,26 +59,28 @@ PPPWidgetImpl::PPPWidgetImpl(Connection* conn, TQWidget* parent, const char* nam
void
PPPWidgetImpl::Init()
{
_mainWid->mNoAuth->setChecked( _pppsetting->getNoAuth() );
_mainWid->mRefuseEap->setChecked( _pppsetting->getRefuseEAP( ) );
_mainWid->mRefusePap->setChecked( _pppsetting->getRefusePAP( ) );
_mainWid->mRefuseChap->setChecked( _pppsetting->getRefuseChap() );
_mainWid->mRefuseMschap->setChecked( _pppsetting->getRefuseMSChap() );
_mainWid->mRefuseMschapV2->setChecked( _pppsetting->getRefuseMSChapV2() );
_mainWid->mNoBsd->setChecked( _pppsetting->getNoBSDComp() );
_mainWid->mNoDeflate->setChecked( _pppsetting->getNoDeflate() );
_mainWid->mNoVjComp->setChecked( _pppsetting->getNoVJComp() );
_mainWid->mRequireMppe->setChecked( _pppsetting->getRequireMPPE( ));
_mainWid->mRequireMppe128->setChecked( _pppsetting->getRequireMPPE128( ));
_mainWid->mStatefulMppe->setChecked( _pppsetting->getMPPEStateful() );
_mainWid->mRequireMppc->setChecked( _pppsetting->getRequireMPPC() );
_mainWid->mCrtscts->setChecked( _pppsetting->getCRTSCTS() );
_mainWid->mBaudRate->setValue(_pppsetting->getBaud());
_mainWid->mMru->setValue(_pppsetting->getMRU());
_mainWid->mMtu->setValue(_pppsetting->getMTU());
_mainWid->mLcpEchoFailure->setValue(_pppsetting->getLCPEchoFailure());
_mainWid->mLcpEchoInterval->setValue(_pppsetting->getLCPEchoInterval());
if (_pppsetting->pppConfig.valid) {
_mainWid->mNoAuth->setChecked( !(_pppsetting->pppConfig.requireServerAuthentication) );
_mainWid->mRefuseEap->setChecked( _pppsetting->pppConfig.flags & TDENetworkPPPFlags::DisableEAP );
_mainWid->mRefusePap->setChecked( _pppsetting->pppConfig.flags & TDENetworkPPPFlags::DisablePAP );
_mainWid->mRefuseChap->setChecked( _pppsetting->pppConfig.flags & TDENetworkPPPFlags::DisableCHAP );
_mainWid->mRefuseMschap->setChecked( _pppsetting->pppConfig.flags & TDENetworkPPPFlags::DisableMSCHAP );
_mainWid->mRefuseMschapV2->setChecked( _pppsetting->pppConfig.flags & TDENetworkPPPFlags::DisableMSCHAPv2 );
_mainWid->mNoBsd->setChecked( !(_pppsetting->pppConfig.flags & TDENetworkPPPFlags::AllowBSDCompression) );
_mainWid->mNoDeflate->setChecked( !(_pppsetting->pppConfig.flags & TDENetworkPPPFlags::AllowDeflateCompression) );
_mainWid->mNoVjComp->setChecked( !(_pppsetting->pppConfig.flags & TDENetworkPPPFlags::AllowVJCompression) );
_mainWid->mRequireMppe->setChecked( _pppsetting->pppConfig.flags & TDENetworkPPPFlags::RequireMPPE );
_mainWid->mRequireMppe128->setChecked( _pppsetting->pppConfig.flags & TDENetworkPPPFlags::RequireMPPE128 );
_mainWid->mStatefulMppe->setChecked( _pppsetting->pppConfig.flags & TDENetworkPPPFlags::StatefulMPPE );
_mainWid->mCrtscts->setChecked( _pppsetting->pppConfig.flags & TDENetworkPPPFlags::UseHardwareFlowControl );
_mainWid->mBaudRate->setValue(_pppsetting->pppConfig.baudRate);
_mainWid->mMru->setValue(_pppsetting->pppConfig.mru);
_mainWid->mMtu->setValue(_pppsetting->pppConfig.mtu);
_mainWid->mLcpEchoFailure->setValue(_pppsetting->pppConfig.lcpEchoFailureThreshold);
_mainWid->mLcpEchoInterval->setValue(_pppsetting->pppConfig.lcpEchoPingInterval);
}
connect( _mainWid->mNoAuth, TQT_SIGNAL(toggled(bool)), TQT_SLOT(dirty()));
connect( _mainWid->mRefuseEap, TQT_SIGNAL(toggled(bool)), TQT_SLOT(dirty()));
connect( _mainWid->mRefusePap, TQT_SIGNAL(toggled(bool)), TQT_SLOT(dirty()));
@ -92,7 +92,6 @@ PPPWidgetImpl::Init()
connect( _mainWid->mRequireMppe, TQT_SIGNAL(toggled(bool)), TQT_SLOT(dirty()));
connect( _mainWid->mRequireMppe128, TQT_SIGNAL(toggled(bool)), TQT_SLOT(dirty()));
connect( _mainWid->mStatefulMppe, TQT_SIGNAL(toggled(bool)), TQT_SLOT(dirty()));
connect( _mainWid->mRequireMppc, TQT_SIGNAL(toggled(bool)), TQT_SLOT(dirty()));
connect( _mainWid->mCrtscts, TQT_SIGNAL(toggled(bool)), TQT_SLOT(dirty()));
}
@ -107,24 +106,40 @@ PPPWidgetImpl::Activate()
}
#define SET_FLAG_IF_TRUE_CLEAR_IF_FALSE(x,y,z) { \
if (z) { \
x |= y; \
} \
else { \
x &= (~y); \
} \
}
void
PPPWidgetImpl::dirty()
{
_pppsetting->setNoAuth( _mainWid->mNoAuth->isChecked() );
_pppsetting->setRefuseEAP( _mainWid->mRefuseEap->isChecked() );
_pppsetting->setRefuseChap( _mainWid->mRefuseChap->isChecked() );
_pppsetting->setRefuseMSChap( _mainWid->mRefuseMschap->isChecked() );
_pppsetting->setNoBSDComp( _mainWid->mNoBsd->isChecked() );
_pppsetting->setNoDeflate( _mainWid->mNoDeflate->isChecked() );
_pppsetting->setRequireMPPE( _mainWid->mRequireMppe->isChecked() );
_pppsetting->setRequireMPPE( _mainWid->mRequireMppe128->isChecked() );
_pppsetting->setMPPEStateful( _mainWid->mStatefulMppe->isChecked() );
_pppsetting->setBaud(_mainWid->mBaudRate->value());
_pppsetting->setMRU(_mainWid->mMru->value());
_pppsetting->setMTU(_mainWid->mMtu->value());
_pppsetting->setLCPEchoFailure(_mainWid->mLcpEchoFailure->value());
_pppsetting->setLCPEchoInterval(_mainWid->mLcpEchoInterval->value());
_pppsetting->pppConfig.requireServerAuthentication = ( !(_mainWid->mNoAuth->isChecked()) );
SET_FLAG_IF_TRUE_CLEAR_IF_FALSE( _pppsetting->pppConfig.flags, TDENetworkPPPFlags::DisableEAP, _mainWid->mRefuseEap->isChecked() );
SET_FLAG_IF_TRUE_CLEAR_IF_FALSE( _pppsetting->pppConfig.flags, TDENetworkPPPFlags::DisablePAP, _mainWid->mRefusePap->isChecked() );
SET_FLAG_IF_TRUE_CLEAR_IF_FALSE( _pppsetting->pppConfig.flags, TDENetworkPPPFlags::DisableCHAP, _mainWid->mRefuseChap->isChecked() );
SET_FLAG_IF_TRUE_CLEAR_IF_FALSE( _pppsetting->pppConfig.flags, TDENetworkPPPFlags::DisableMSCHAP, _mainWid->mRefuseMschap->isChecked() );
SET_FLAG_IF_TRUE_CLEAR_IF_FALSE( _pppsetting->pppConfig.flags, TDENetworkPPPFlags::DisableMSCHAPv2, _mainWid->mRefuseMschapV2->isChecked() );
SET_FLAG_IF_TRUE_CLEAR_IF_FALSE( _pppsetting->pppConfig.flags, TDENetworkPPPFlags::AllowBSDCompression, !(_mainWid->mNoBsd->isChecked()) );
SET_FLAG_IF_TRUE_CLEAR_IF_FALSE( _pppsetting->pppConfig.flags, TDENetworkPPPFlags::AllowDeflateCompression, !(_mainWid->mNoDeflate->isChecked()) );
SET_FLAG_IF_TRUE_CLEAR_IF_FALSE( _pppsetting->pppConfig.flags, TDENetworkPPPFlags::AllowVJCompression, !(_mainWid->mNoVjComp->isChecked()) );
SET_FLAG_IF_TRUE_CLEAR_IF_FALSE( _pppsetting->pppConfig.flags, TDENetworkPPPFlags::RequireMPPE, _mainWid->mRequireMppe->isChecked() );
SET_FLAG_IF_TRUE_CLEAR_IF_FALSE( _pppsetting->pppConfig.flags, TDENetworkPPPFlags::RequireMPPE128, _mainWid->mRequireMppe128->isChecked() );
SET_FLAG_IF_TRUE_CLEAR_IF_FALSE( _pppsetting->pppConfig.flags, TDENetworkPPPFlags::StatefulMPPE, _mainWid->mStatefulMppe->isChecked() );
SET_FLAG_IF_TRUE_CLEAR_IF_FALSE( _pppsetting->pppConfig.flags, TDENetworkPPPFlags::UseHardwareFlowControl, _mainWid->mCrtscts->isChecked() );
_pppsetting->pppConfig.baudRate = _mainWid->mBaudRate->value();
_pppsetting->pppConfig.mru = _mainWid->mMru->value();
_pppsetting->pppConfig.mtu = _mainWid->mMtu->value();
_pppsetting->pppConfig.lcpEchoFailureThreshold = _mainWid->mLcpEchoFailure->value();
_pppsetting->pppConfig.lcpEchoPingInterval = _mainWid->mLcpEchoInterval->value();
_pppsetting->pppConfig.valid = true;
}
#include "knetworkmanager-connection_setting_ppp_widget.moc"

@ -26,14 +26,17 @@
#define KNETWORKMANAGER_CONNECTION_SETTING_PPP_WIDGET_H
// qt headers
// tqt headers
#include <tqwidget.h>
#include <tqlineedit.h>
// tde headers
#include <tdehardwaredevices.h>
#include <tdenetworkconnections.h>
// knm headers
#include "knetworkmanager-connection_setting_ppp.h"
#include "knetworkmanager-connection_setting_widget_interface.h"
#include "knetworkmanager-device.h"
//class VPNService;
class ConnectionSettingPppWidget;
@ -48,7 +51,7 @@ class PPPWidgetImpl : public WidgetInterface
Q_OBJECT
public:
PPPWidgetImpl(Connection* conn, TQWidget* parent = NULL, const char* name = NULL, WFlags fl = 0);
PPPWidgetImpl(TDENetworkConnection* conn, TQWidget* parent = NULL, const char* name = NULL, WFlags fl = 0);
void Activate();
void Deactivate();
public slots:
@ -57,7 +60,7 @@ class PPPWidgetImpl : public WidgetInterface
private:
void Init();
PPP* _pppsetting;
TDENetworkConnection* _pppsetting;
ConnectionSettingPppWidget* _mainWid;
};

@ -36,19 +36,17 @@
#include <kuser.h>
// knm headers
#include "knetworkmanager-connection.h"
#include "knetworkmanager-connection_setting_serial.h"
#include "knetworkmanager-connection_setting_serial_widget.h"
#include "knetworkmanager-device.h"
#include "connection_setting_serial.h"
using namespace ConnectionSettings;
SerialWidgetImpl::SerialWidgetImpl(Connection* conn, TQWidget* parent, const char* name, WFlags fl)
SerialWidgetImpl::SerialWidgetImpl(TDENetworkConnection* conn, TQWidget* parent, const char* name, WFlags fl)
: WidgetInterface(parent, name, fl)
{
_serialsetting = dynamic_cast<ConnectionSettings::Serial*> (conn->getSetting(NM_SETTING_SERIAL_SETTING_NAME));
_serialsetting = conn;
TQVBoxLayout* layout = new TQVBoxLayout(this, 1, 1);
_mainWid = new ConnectionSettingSerialWidget(this);
@ -60,11 +58,13 @@ SerialWidgetImpl::SerialWidgetImpl(Connection* conn, TQWidget* parent, const cha
void
SerialWidgetImpl::Init()
{
_mainWid->mBaudRate->setValue(_serialsetting->getBaud());
_mainWid->mDataBits->setCurrentItem(_serialsetting->getBits() - 7);
_mainWid->mParity->setCurrentItem(_serialsetting->getParity());
_mainWid->mStopBits->setCurrentItem(_serialsetting->getStopBits());
_mainWid->mSendDelay->setValue(_serialsetting->getSendDelay());
if (_serialsetting->serialConfig.valid) {
_mainWid->mBaudRate->setValue(_serialsetting->serialConfig.baudRate);
_mainWid->mDataBits->setCurrentItem(_serialsetting->serialConfig.byteWidth - 7);
setParityType(_serialsetting->serialConfig.parity);
_mainWid->mStopBits->setCurrentItem(_serialsetting->serialConfig.stopBits);
_mainWid->mSendDelay->setValue(_serialsetting->serialConfig.txDelay);
}
connect( _mainWid->mBaudRate, TQT_SIGNAL(valueChanged(int)), TQT_SLOT(dirty()));
connect( _mainWid->mDataBits, TQT_SIGNAL(activated(int)), TQT_SLOT(dirty()));
@ -87,11 +87,48 @@ SerialWidgetImpl::Activate()
void
SerialWidgetImpl::dirty()
{
_serialsetting->setBaud( _mainWid->mBaudRate->value() );
_serialsetting->setBits( _mainWid->mDataBits->currentItem() + 7 );
_serialsetting->setParity( (ConnectionSettings::Serial::PARITY_MODE)_mainWid->mParity->currentItem() );
_serialsetting->setStopBits( _mainWid->mStopBits->currentItem() );
_serialsetting->setSendDelay( _mainWid->mSendDelay->value() );
_serialsetting->serialConfig.baudRate = _mainWid->mBaudRate->value();
_serialsetting->serialConfig.byteWidth = _mainWid->mDataBits->currentItem() + 7;
_serialsetting->serialConfig.parity = getParityType();
_serialsetting->serialConfig.stopBits = _mainWid->mStopBits->currentItem();
_serialsetting->serialConfig.txDelay = _mainWid->mSendDelay->value();
_serialsetting->serialConfig.valid = true;
}
void
SerialWidgetImpl::setParityType(TDENetworkParity::TDENetworkParity type)
{
if (type == TDENetworkParity::None) {
_mainWid->mParity->setCurrentItem(0);
}
else if (type == TDENetworkParity::Even) {
_mainWid->mParity->setCurrentItem(1);
}
else if (type == TDENetworkParity::Odd) {
_mainWid->mParity->setCurrentItem(2);
}
else {
_mainWid->mParity->setCurrentItem(0);
}
}
TDENetworkParity::TDENetworkParity
SerialWidgetImpl::getParityType()
{
int itemNo = _mainWid->mParity->currentItem();
if (itemNo == 0) {
return TDENetworkParity::None;
}
else if (itemNo == 1) {
return TDENetworkParity::Even;
}
else if (itemNo == 2) {
return TDENetworkParity::Odd;
}
else {
return TDENetworkParity::None;
}
}
#include "knetworkmanager-connection_setting_serial_widget.moc"

@ -26,14 +26,17 @@
#define KNETWORKMANAGER_CONNECTION_SETTING_SERIAL_WIDGET_H
// qt headers
// tqt headers
#include <tqwidget.h>
#include <tqlineedit.h>
// tde headers
#include <tdehardwaredevices.h>
#include <tdenetworkconnections.h>
// knm headers
#include "knetworkmanager-connection_setting_serial.h"
#include "knetworkmanager-connection_setting_widget_interface.h"
#include "knetworkmanager-device.h"
//class VPNService;
class ConnectionSettingSerialWidget;
@ -48,7 +51,7 @@ class SerialWidgetImpl : public WidgetInterface
Q_OBJECT
public:
SerialWidgetImpl(Connection* conn, TQWidget* parent = NULL, const char* name = NULL, WFlags fl = 0);
SerialWidgetImpl(TDENetworkConnection* conn, TQWidget* parent = NULL, const char* name = NULL, WFlags fl = 0);
void Activate();
void Deactivate();
public slots:
@ -57,7 +60,10 @@ class SerialWidgetImpl : public WidgetInterface
private:
void Init();
Serial* _serialsetting;
void setParityType(TDENetworkParity::TDENetworkParity type);
TDENetworkParity::TDENetworkParity getParityType();
TDENetworkConnection* _serialsetting;
ConnectionSettingSerialWidget* _mainWid;
};

@ -41,48 +41,52 @@
#include <kpassdlg.h>
/* knetworkmanager headers */
#include "knetworkmanager-accesspoint.h"
#include "knetworkmanager-wireless_device.h"
#include "knetworkmanager-device.h"
#include "knetworkmanager-connection.h"
#include "knetworkmanager-connection_setting_wireless_security_widget.h"
#include "knetworkmanager-connection_setting_wireless_security.h"
#include "knetworkmanager-connection_setting_wireless.h"
#include "knetworkmanager-connection_setting_8021x.h"
#include "sha1.h"
#include "md5.h"
#include "knetworkmanager-wireless_manager.h"
#define WPA_PMK_LEN 32
#define SET_FLAG_IF_TRUE_CLEAR_IF_FALSE(x,y,z) { \
if (z) { \
x |= y; \
} \
else { \
x &= (~y); \
} \
}
using namespace ConnectionSettings;
/*
class WirelessSecurityWEPImpl
*/
WirelessSecurityWEPImpl::WirelessSecurityWEPImpl(WirelessSecurity* sec, TQWidget* parent, const char* name, WFlags fl)
WirelessSecurityWEPImpl::WirelessSecurityWEPImpl(TDEWiFiConnection* sec, TQWidget* parent, const char* name, WFlags fl)
: ConnectionSettingWirelessSecurityWEP(parent, name, fl)
, _security_setting(sec)
, _wepKeyType( WEPKEY_TYPE_HEX )
{
cboAuthentication->insertItem(i18n("Open System"), 0);
cboAuthentication->insertItem(i18n("Shared Key"), 1);
if (_security_setting->getAuthAlg() == WirelessSecurity::AUTH_ALG_OPEN)
if (_security_setting->securitySettings.authType == TDENetworkWiFiAuthType::Open) {
cboAuthentication->setCurrentItem(0);
else if (_security_setting->getAuthAlg() == WirelessSecurity::AUTH_ALG_SHARED)
}
else if (_security_setting->securitySettings.authType == TDENetworkWiFiAuthType::Shared) {
cboAuthentication->setCurrentItem(1);
}
cbKeyType->insertItem(i18n("WEP 40/128-bit ASCII"), WEPKEY_TYPE_ASCII);
cbKeyType->insertItem(i18n("WEP 40/128-bit Hexadecimal"), WEPKEY_TYPE_HEX);
cbKeyType->insertItem(i18n("WEP 128-bit passphrase"), WEPKEY_TYPE_PASSPHRASE);
cbKeyType->setCurrentItem(_wepKeyType );
txtWEPKey0->setText(_security_setting->getWepKey(0));
txtWEPKey1->setText(_security_setting->getWepKey(1));
txtWEPKey2->setText(_security_setting->getWepKey(2));
txtWEPKey3->setText(_security_setting->getWepKey(3));
txtWEPKey0->setText(_security_setting->securitySettings.wepKey0);
txtWEPKey1->setText(_security_setting->securitySettings.wepKey1);
txtWEPKey2->setText(_security_setting->securitySettings.wepKey2);
txtWEPKey3->setText(_security_setting->securitySettings.wepKey3);
switch(_security_setting->getWepTxidx())
switch(_security_setting->securitySettings.wepKeyIndex)
{
case 0:
rbKeyIdx0->setChecked(true);
@ -116,10 +120,12 @@ WirelessSecurityWEPImpl::WirelessSecurityWEPImpl(WirelessSecurity* sec, TQWidget
void WirelessSecurityWEPImpl::slotAuthAlgChanged(int index)
{
if (index == 0)
_security_setting->setAuthAlg(WirelessSecurity::AUTH_ALG_OPEN);
else if (index == 1)
_security_setting->setAuthAlg(WirelessSecurity::AUTH_ALG_SHARED);
if (index == 0) {
_security_setting->securitySettings.authType =TDENetworkWiFiAuthType::Open;
}
else if (index == 1) {
_security_setting->securitySettings.authType = TDENetworkWiFiAuthType::Shared;
}
}
void WirelessSecurityWEPImpl::slotKeyTypeChanged(int index)
@ -132,49 +138,53 @@ void WirelessSecurityWEPImpl::slotKeyTypeChanged(int index)
void WirelessSecurityWEPImpl::slotWepKey0Changed(const TQString &key)
{
TQCString hashed = getHashedWEPKey(key, _wepKeyType);
_security_setting->setWepKey(0, hashed);
_security_setting->securitySettings.wepKey0 = hashed;
}
void WirelessSecurityWEPImpl::slotWepKey1Changed(const TQString &key)
{
TQCString hashed = getHashedWEPKey(key, _wepKeyType);
_security_setting->setWepKey(1, hashed);
_security_setting->securitySettings.wepKey1 = hashed;
}
void WirelessSecurityWEPImpl::slotWepKey2Changed(const TQString &key)
{
TQCString hashed = getHashedWEPKey(key, _wepKeyType);
_security_setting->setWepKey(2, hashed);
_security_setting->securitySettings.wepKey2 = hashed;
}
void WirelessSecurityWEPImpl::slotWepKey3Changed(const TQString& key)
{
TQCString hashed = getHashedWEPKey(key, _wepKeyType);
_security_setting->setWepKey(3, hashed);
_security_setting->securitySettings.wepKey3 = hashed;
}
void WirelessSecurityWEPImpl::slotWepIdx0Checked(bool check)
{
if (check)
_security_setting->setWepTxidx(0);
if (check) {
_security_setting->securitySettings.wepKeyIndex = 0;
}
}
void WirelessSecurityWEPImpl::slotWepIdx1Checked(bool check)
{
if (check)
_security_setting->setWepTxidx(1);
if (check) {
_security_setting->securitySettings.wepKeyIndex = 1;
}
}
void WirelessSecurityWEPImpl::slotWepIdx2Checked(bool check)
{
if (check)
_security_setting->setWepTxidx(2);
if (check) {
_security_setting->securitySettings.wepKeyIndex = 2;
}
}
void WirelessSecurityWEPImpl::slotWepIdx3Checked(bool check)
{
if (check)
_security_setting->setWepTxidx(3);
if (check) {
_security_setting->securitySettings.wepKeyIndex = 3;
}
}
TQCString
@ -243,7 +253,7 @@ WirelessSecurityWEPImpl::String2Hex(TQByteArray bytes, int final_len) const
/*
class WirelessSecurityWEPEncryptionImpl
*/
WirelessSecurityWEPEncryptionImpl::WirelessSecurityWEPEncryptionImpl(WirelessSecurity* security_setting, TQWidget* parent, const char* name, WFlags fl)
WirelessSecurityWEPEncryptionImpl::WirelessSecurityWEPEncryptionImpl(TDEWiFiConnection* security_setting, TQWidget* parent, const char* name, WFlags fl)
: ConnectionSettingWirelessSecurityWEPEncryption(parent, name, fl)
, _security_setting(security_setting)
{
@ -255,12 +265,12 @@ WirelessSecurityWEPEncryptionImpl::WirelessSecurityWEPEncryptionImpl(WirelessSec
/*
class WirelessSecurityWPAVersionImpl
*/
WirelessSecurityWPAVersionImpl::WirelessSecurityWPAVersionImpl(WirelessSecurity* security_setting, TQWidget* parent, const char* name, WFlags fl)
WirelessSecurityWPAVersionImpl::WirelessSecurityWPAVersionImpl(TDEWiFiConnection* security_setting, TQWidget* parent, const char* name, WFlags fl)
: ConnectionSettingWirelessSecurityWPAVersion(parent, name, fl)
, _security_setting(security_setting)
{
cbWPA->setChecked(_security_setting->getProto() & WirelessSecurity::PROTO_WPA);
cbRSN->setChecked(_security_setting->getProto() & WirelessSecurity::PROTO_RSN);
cbWPA->setChecked(_security_setting->securitySettings.wpaVersion & TDENetworkWiFiWPAVersionFlags::WPA);
cbRSN->setChecked(_security_setting->securitySettings.wpaVersion & TDENetworkWiFiWPAVersionFlags::RSN);
connect(cbWPA, TQT_SIGNAL(toggled(bool)), this, TQT_SLOT(slotWPA1(bool)));
connect(cbRSN, TQT_SIGNAL(toggled(bool)), this, TQT_SLOT(slotWPA2(bool)));
@ -271,45 +281,39 @@ WirelessSecurityWPAVersionImpl::WirelessSecurityWPAVersionImpl(WirelessSecurity*
void
WirelessSecurityWPAVersionImpl::slotAuto(bool on)
{
if (!on)
{
if (!on) {
// auto-select proto
_security_setting->setProto(WirelessSecurity::PROTO_AUTO);
_security_setting->securitySettings.wpaVersion = TDENetworkWiFiWPAVersionFlags::Any;
}
else
{
else {
// use selected wpa-version
TQ_UINT32 proto = WirelessSecurity::PROTO_NONE;
if (cbWPA->isChecked())
proto |= WirelessSecurity::PROTO_WPA;
if (cbRSN->isChecked())
proto |= WirelessSecurity::PROTO_RSN;
_security_setting->setProto(proto);
TDENetworkWiFiWPAVersionFlags::TDENetworkWiFiWPAVersionFlags proto = TDENetworkWiFiWPAVersionFlags::None;
if (cbWPA->isChecked()) {
proto |= TDENetworkWiFiWPAVersionFlags::WPA;
}
if (cbRSN->isChecked()) {
proto |= TDENetworkWiFiWPAVersionFlags::RSN;
}
_security_setting->securitySettings.wpaVersion = proto;
}
}
void
WirelessSecurityWPAVersionImpl::slotWPA1(bool on)
{
if (on)
_security_setting->addProto(WirelessSecurity::PROTO_WPA);
else
_security_setting->delProto(WirelessSecurity::PROTO_WPA);
SET_FLAG_IF_TRUE_CLEAR_IF_FALSE(_security_setting->securitySettings.wpaVersion, TDENetworkWiFiWPAVersionFlags::WPA, on);
}
void
WirelessSecurityWPAVersionImpl::slotWPA2(bool on)
{
if (on)
_security_setting->addProto(WirelessSecurity::PROTO_RSN);
else
_security_setting->delProto(WirelessSecurity::PROTO_RSN);
SET_FLAG_IF_TRUE_CLEAR_IF_FALSE(_security_setting->securitySettings.wpaVersion, TDENetworkWiFiWPAVersionFlags::RSN, on);
}
/*
class WirelessSecurityWPACipherImpl
*/
WirelessSecurityWPACipherImpl::WirelessSecurityWPACipherImpl(WirelessSecurity* security_setting, TQWidget* parent, const char* name, WFlags fl)
WirelessSecurityWPACipherImpl::WirelessSecurityWPACipherImpl(TDEWiFiConnection* security_setting, TQWidget* parent, const char* name, WFlags fl)
: ConnectionSettingWirelessSecurityWPACipher(parent, name, fl)
, _security_setting(security_setting)
{
@ -323,13 +327,13 @@ WirelessSecurityWPACipherImpl::WirelessSecurityWPACipherImpl(WirelessSecurity* s
connect(chkPairwiseCipherTKIP, TQT_SIGNAL(toggled(bool)), this, TQT_SLOT(slotPairwiseCipherChangedTKIP(bool)));
connect(chkPairwiseCipherCCMP, TQT_SIGNAL(toggled(bool)), this, TQT_SLOT(slotPairwiseCipherChangedCCMP(bool)));
chkPairwiseCipherCCMP->setChecked(_security_setting->getPairwiseCiphers() & WirelessSecurity::CIPHER_CCMP);
chkPairwiseCipherTKIP->setChecked(_security_setting->getPairwiseCiphers() & WirelessSecurity::CIPHER_TKIP);
chkPairwiseCipherCCMP->setChecked(_security_setting->securitySettings.allowedPairWiseCiphers.contains(TDENetworkWiFiConnectionCipher::Any) || _security_setting->securitySettings.allowedPairWiseCiphers.contains(TDENetworkWiFiConnectionCipher::CipherCCMP));
chkPairwiseCipherTKIP->setChecked(_security_setting->securitySettings.allowedPairWiseCiphers.contains(TDENetworkWiFiConnectionCipher::Any) || _security_setting->securitySettings.allowedPairWiseCiphers.contains(TDENetworkWiFiConnectionCipher::CipherTKIP));
chkGroupCipherCCMP->setChecked(_security_setting->getGroupCiphers() & WirelessSecurity::CIPHER_CCMP);
chkGroupCipherTKIP->setChecked(_security_setting->getGroupCiphers() & WirelessSecurity::CIPHER_TKIP);
chkGroupCipherWEP40->setChecked(_security_setting->getGroupCiphers() & WirelessSecurity::CIPHER_WEP40);
chkGroupCipherWEP104->setChecked(_security_setting->getGroupCiphers() & WirelessSecurity::CIPHER_WEP104);
chkGroupCipherCCMP->setChecked(_security_setting->securitySettings.allowedGroupWiseCiphers.contains(TDENetworkWiFiConnectionCipher::Any) || _security_setting->securitySettings.allowedGroupWiseCiphers.contains(TDENetworkWiFiConnectionCipher::CipherCCMP));
chkGroupCipherTKIP->setChecked(_security_setting->securitySettings.allowedGroupWiseCiphers.contains(TDENetworkWiFiConnectionCipher::Any) || _security_setting->securitySettings.allowedGroupWiseCiphers.contains(TDENetworkWiFiConnectionCipher::CipherTKIP));
chkGroupCipherWEP40->setChecked(_security_setting->securitySettings.allowedGroupWiseCiphers.contains(TDENetworkWiFiConnectionCipher::Any) || _security_setting->securitySettings.allowedGroupWiseCiphers.contains(TDENetworkWiFiConnectionCipher::CipherWEP40));
chkGroupCipherWEP104->setChecked(_security_setting->securitySettings.allowedGroupWiseCiphers.contains(TDENetworkWiFiConnectionCipher::Any) || _security_setting->securitySettings.allowedGroupWiseCiphers.contains(TDENetworkWiFiConnectionCipher::CipherWEP104));
}
@ -339,32 +343,40 @@ WirelessSecurityWPACipherImpl::slotCipherChangedAuto(bool checked)
if (!checked)
{
// select auto for both ciphers
_security_setting->setGroupCiphers(WirelessSecurity::CIPHER_AUTO);
_security_setting->setPairwiseCiphers(WirelessSecurity::CIPHER_AUTO);
_security_setting->securitySettings.allowedGroupWiseCiphers.clear();
_security_setting->securitySettings.allowedGroupWiseCiphers.append(TDENetworkWiFiConnectionCipher::Any);
_security_setting->securitySettings.allowedPairWiseCiphers.clear();
_security_setting->securitySettings.allowedPairWiseCiphers.append(TDENetworkWiFiConnectionCipher::Any);
}
else
{
// use the already selected ciphers
// group cipher
TQ_UINT32 cipher = WirelessSecurity::CIPHER_NONE;
if (chkGroupCipherTKIP->isChecked())
cipher |= WirelessSecurity::CIPHER_TKIP;
if (chkGroupCipherCCMP->isChecked())
cipher |= WirelessSecurity::CIPHER_CCMP;
if (chkGroupCipherWEP40->isChecked())
cipher |= WirelessSecurity::CIPHER_WEP40;
if (chkGroupCipherWEP104->isChecked())
cipher |= WirelessSecurity::CIPHER_WEP104;
_security_setting->setGroupCiphers(cipher);
TDENetworkWiFiConnectionCipherList cipher;
if (chkGroupCipherTKIP->isChecked()) {
cipher.append(TDENetworkWiFiConnectionCipher::CipherTKIP);
}
if (chkGroupCipherCCMP->isChecked()) {
cipher.append(TDENetworkWiFiConnectionCipher::CipherCCMP);
}
if (chkGroupCipherWEP40->isChecked()) {
cipher.append(TDENetworkWiFiConnectionCipher::CipherWEP40);
}
if (chkGroupCipherWEP104->isChecked()) {
cipher.append(TDENetworkWiFiConnectionCipher::CipherWEP104);
}
_security_setting->securitySettings.allowedGroupWiseCiphers = cipher;
// pairwise cipher
cipher = WirelessSecurity::CIPHER_NONE;
if (chkPairwiseCipherTKIP->isChecked())
cipher |= WirelessSecurity::CIPHER_TKIP;
if (chkPairwiseCipherCCMP->isChecked())
cipher |= WirelessSecurity::CIPHER_CCMP;
_security_setting->setPairwiseCiphers(cipher);
cipher.clear();
if (chkPairwiseCipherTKIP->isChecked()) {
cipher.append(TDENetworkWiFiConnectionCipher::CipherTKIP);
}
if (chkPairwiseCipherCCMP->isChecked()) {
cipher.append(TDENetworkWiFiConnectionCipher::CipherCCMP);
}
_security_setting->securitySettings.allowedPairWiseCiphers = cipher;
}
}
@ -372,66 +384,80 @@ WirelessSecurityWPACipherImpl::slotCipherChangedAuto(bool checked)
void
WirelessSecurityWPACipherImpl::slotGroupCipherChangedTKIP(bool checked)
{
if (checked)
_security_setting->setGroupCiphers(_security_setting->getGroupCiphers() | WirelessSecurity::CIPHER_TKIP);
else
_security_setting->setGroupCiphers(_security_setting->getGroupCiphers() & (!WirelessSecurity::CIPHER_TKIP));
if (checked) {
if (!_security_setting->securitySettings.allowedGroupWiseCiphers.contains(TDENetworkWiFiConnectionCipher::CipherTKIP)) _security_setting->securitySettings.allowedGroupWiseCiphers.append(TDENetworkWiFiConnectionCipher::CipherTKIP);
}
else {
_security_setting->securitySettings.allowedGroupWiseCiphers.remove(TDENetworkWiFiConnectionCipher::CipherTKIP);
}
}
void
WirelessSecurityWPACipherImpl::slotGroupCipherChangedCCMP(bool checked)
{
if (checked)
_security_setting->setGroupCiphers(_security_setting->getGroupCiphers() | WirelessSecurity::CIPHER_CCMP);
else
_security_setting->setGroupCiphers(_security_setting->getGroupCiphers() & (!WirelessSecurity::CIPHER_CCMP));
if (checked) {
if (!_security_setting->securitySettings.allowedGroupWiseCiphers.contains(TDENetworkWiFiConnectionCipher::CipherCCMP)) _security_setting->securitySettings.allowedGroupWiseCiphers.append(TDENetworkWiFiConnectionCipher::CipherCCMP);
}
else {
_security_setting->securitySettings.allowedGroupWiseCiphers.remove(TDENetworkWiFiConnectionCipher::CipherCCMP);
}
}
void
WirelessSecurityWPACipherImpl::slotGroupCipherChangedWEP40(bool checked)
{
if (checked)
_security_setting->setGroupCiphers(_security_setting->getGroupCiphers() | WirelessSecurity::CIPHER_WEP40);
else
_security_setting->setGroupCiphers(_security_setting->getGroupCiphers() & (!WirelessSecurity::CIPHER_WEP40));
if (checked) {
if (!_security_setting->securitySettings.allowedPairWiseCiphers.contains(TDENetworkWiFiConnectionCipher::CipherWEP40)) _security_setting->securitySettings.allowedPairWiseCiphers.append(TDENetworkWiFiConnectionCipher::CipherWEP40);
}
else {
_security_setting->securitySettings.allowedPairWiseCiphers.remove(TDENetworkWiFiConnectionCipher::CipherWEP40);
}
}
void
WirelessSecurityWPACipherImpl::slotGroupCipherChangedWEP104(bool checked)
{
if (checked)
_security_setting->setGroupCiphers(_security_setting->getGroupCiphers() | WirelessSecurity::CIPHER_WEP104);
else
_security_setting->setGroupCiphers(_security_setting->getGroupCiphers() & (!WirelessSecurity::CIPHER_WEP104));
if (checked) {
if (!_security_setting->securitySettings.allowedPairWiseCiphers.contains(TDENetworkWiFiConnectionCipher::CipherWEP104)) _security_setting->securitySettings.allowedPairWiseCiphers.append(TDENetworkWiFiConnectionCipher::CipherWEP104);
}
else {
_security_setting->securitySettings.allowedPairWiseCiphers.remove(TDENetworkWiFiConnectionCipher::CipherWEP104);
}
}
void
WirelessSecurityWPACipherImpl::slotPairwiseCipherChangedTKIP(bool checked)
{
if (checked)
_security_setting->setPairwiseCiphers(_security_setting->getPairwiseCiphers() | WirelessSecurity::CIPHER_TKIP);
else
_security_setting->setPairwiseCiphers(_security_setting->getPairwiseCiphers() & (!WirelessSecurity::CIPHER_TKIP));
if (checked) {
if (!_security_setting->securitySettings.allowedPairWiseCiphers.contains(TDENetworkWiFiConnectionCipher::CipherTKIP)) _security_setting->securitySettings.allowedPairWiseCiphers.append(TDENetworkWiFiConnectionCipher::CipherTKIP);
}
else {
_security_setting->securitySettings.allowedPairWiseCiphers.remove(TDENetworkWiFiConnectionCipher::CipherTKIP);
}
}
void
WirelessSecurityWPACipherImpl::slotPairwiseCipherChangedCCMP(bool checked)
{
if (checked)
_security_setting->setPairwiseCiphers(_security_setting->getPairwiseCiphers() | WirelessSecurity::CIPHER_CCMP);
else
_security_setting->setPairwiseCiphers(_security_setting->getPairwiseCiphers() & (!WirelessSecurity::CIPHER_CCMP));
if (checked) {
if (!_security_setting->securitySettings.allowedPairWiseCiphers.contains(TDENetworkWiFiConnectionCipher::CipherCCMP)) _security_setting->securitySettings.allowedPairWiseCiphers.append(TDENetworkWiFiConnectionCipher::CipherCCMP);
}
else {
_security_setting->securitySettings.allowedPairWiseCiphers.remove(TDENetworkWiFiConnectionCipher::CipherCCMP);
}
}
/*
class WirelessSecurityWPAPSK
*/
WirelessSecurityWPAPSKImpl::WirelessSecurityWPAPSKImpl(WirelessSecurity* security_setting, Wireless* wireless_setting, TQWidget* parent, const char* name, WFlags fl)
WirelessSecurityWPAPSKImpl::WirelessSecurityWPAPSKImpl(TDEWiFiConnection* security_setting, TDEWiFiConnection* wireless_setting, TQWidget* parent, const char* name, WFlags fl)
: ConnectionSettingWirelessSecurityWPAPSK(parent, name, fl)
, _security_setting(security_setting)
, _wireless_setting(wireless_setting)
{
txtPSK->setText(_security_setting->getPSK());
if (_security_setting->securitySettings.secretsValid) {
txtPSK->setText(_security_setting->securitySettings.psk);
}
connect(txtPSK, TQT_SIGNAL(textChanged(const TQString&)), this, TQT_SLOT(slotPSKChanged(const TQString&)));
}
@ -440,7 +466,8 @@ WirelessSecurityWPAPSKImpl::slotPSKChanged(const TQString& psk)
{
if (_wireless_setting)
{
_security_setting->setPSK(psk);
_security_setting->securitySettings.psk = psk;
_security_setting->securitySettings.secretsValid = true;
}
}
@ -464,7 +491,7 @@ WirelessSecurityWPAPSKImpl::String2Hex(TQByteArray bytes, int final_len) const
/*
class WirelessSecurityEAPImpl
*/
WirelessSecurityEAPImpl::WirelessSecurityEAPImpl(IEEE8021x* security_setting, WirelessSecurityPhase2Impl* phase2_widget, TQWidget* parent, const char* name, WFlags fl)
WirelessSecurityEAPImpl::WirelessSecurityEAPImpl(TDEWiFiConnection* security_setting, WirelessSecurityPhase2Impl* phase2_widget, TQWidget* parent, const char* name, WFlags fl)
: ConnectionSettingWirelessSecurityEAP(parent, name, fl)
, _security_setting(security_setting)
, _phase2_widget(phase2_widget)
@ -472,42 +499,44 @@ WirelessSecurityEAPImpl::WirelessSecurityEAPImpl(IEEE8021x* security_setting, Wi
// insert all EAP-Methods
int index = 0;
cboMethod->insertItem(i18n("None"), index);
_eapIndexMap[index] = IEEE8021x::EAP_PHASE1_NONE;
_eapIndexMap[index] = TDENetworkIEEE8021xType::None;
cboMethod->insertItem(i18n("TTLS"), ++index);
_eapIndexMap[index] = IEEE8021x::EAP_PHASE1_TTLS;
_eapIndexMap[index] = TDENetworkIEEE8021xType::TTLS;
cboMethod->insertItem(i18n("PEAP"), ++index);
_eapIndexMap[index] = IEEE8021x::EAP_PHASE1_PEAP;
_eapIndexMap[index] = TDENetworkIEEE8021xType::PEAP;
cboMethod->insertItem(i18n("TLS"), ++index);
_eapIndexMap[index] = IEEE8021x::EAP_PHASE1_TLS;
_eapIndexMap[index] = TDENetworkIEEE8021xType::TLS;
cboMethod->insertItem(i18n("Leap"), ++index);
_eapIndexMap[index] = IEEE8021x::EAP_PHASE1_LEAP;
_eapIndexMap[index] = TDENetworkIEEE8021xType::LEAP;
cboMethod->insertItem(i18n("MD5"), ++index);
_eapIndexMap[index] = IEEE8021x::EAP_PHASE1_MD5;
_eapIndexMap[index] = TDENetworkIEEE8021xType::MD5;
cboMethod->insertItem(i18n("FAST"), ++index);
_eapIndexMap[index] = IEEE8021x::EAP_PHASE1_FAST;
_eapIndexMap[index] = TDENetworkIEEE8021xType::Fast;
cboMethod->insertItem(i18n("SIM"), ++index);
_eapIndexMap[index] = IEEE8021x::EAP_PHASE1_SIM;
_eapIndexMap[index] = TDENetworkIEEE8021xType::SIM;
// preselect the correct method
TQBiDirectionalMap<int, IEEE8021x::EAP_PHASE1>::Iterator it = _eapIndexMap.findData(_security_setting->getEAP());
TQBiDirectionalMap<int, TDENetworkIEEE8021xType::TDENetworkIEEE8021xType>::Iterator it = _eapIndexMap.findData(_security_setting->eapConfig.type);
cboMethod->setCurrentItem(it.key());
// update phase2 combobox
_phase2_widget->setAllowedPhase2Methods(_security_setting->getAllowedPhase2Methods());
_phase2_widget->setAllowedPhase2Methods(_security_setting->eapConfig.allowedPhase2EAPMethods);
txtIdentity->setText(_security_setting->getIdentity());
txtAnonIdentity->setText(_security_setting->getAnonIdentity());
txtPassword->setText(_security_setting->getPassword());
txtIdentity->setText(_security_setting->eapConfig.userName);
txtAnonIdentity->setText(_security_setting->eapConfig.anonymousUserName);
if (_security_setting->eapConfig.secretsValid) {
txtPassword->setText(_security_setting->eapConfig.password);
}
chkCAStore->setChecked(_security_setting->getUseSystemCaCert());
kURLCACert->setEnabled(!_security_setting->getUseSystemCaCert());
chkCAStore->setChecked(_security_setting->eapConfig.forceSystemCaCertificates);
kURLCACert->setEnabled(!_security_setting->eapConfig.forceSystemCaCertificates);
// get notified if the method changes
connect(cboMethod, TQT_SIGNAL(activated(int)), this, TQT_SLOT(slotMethodChanged(int)));
@ -519,42 +548,43 @@ WirelessSecurityEAPImpl::WirelessSecurityEAPImpl(IEEE8021x* security_setting, Wi
void WirelessSecurityEAPImpl::slotUseSystemCaCertChanged(bool on)
{
_security_setting->setUseSystemCaCert(on);
_security_setting->eapConfig.forceSystemCaCertificates = on;
kURLCACert->setEnabled(!on);
}
void WirelessSecurityEAPImpl::slotMethodChanged(int index)
{
// new method choosen
IEEE8021x::EAP_PHASE1 eap = _eapIndexMap[index];
_security_setting->setEAP(eap);
TDENetworkIEEE8021xType::TDENetworkIEEE8021xType eap = _eapIndexMap[index];
_security_setting->eapConfig.type = eap;
_phase2_widget->setAllowedPhase2Methods(_security_setting->getAllowedPhase2Methods());
_phase2_widget->setAllowedPhase2Methods(_security_setting->eapConfig.allowedPhase2EAPMethods);
}
void WirelessSecurityEAPImpl::slotIdentityChanged(const TQString& identity)
{
_security_setting->setIdentity(identity);
_security_setting->eapConfig.userName = identity;
}
void WirelessSecurityEAPImpl::slotAnonIdentityChanged(const TQString& identity)
{
_security_setting->setAnonIdentity(identity);
_security_setting->eapConfig.anonymousUserName = identity;
}
void WirelessSecurityEAPImpl::slotPasswordChanged(const TQString& pwd)
{
_security_setting->setPassword(TQString(txtPassword->password()));
_security_setting->eapConfig.password = TQString(txtPassword->password());
_security_setting->eapConfig.secretsValid = true;
}
/*
class WirelessSecurityPhase2Impl
*/
WirelessSecurityPhase2Impl::WirelessSecurityPhase2Impl(IEEE8021x* security_setting, TQWidget* parent, const char* name, WFlags fl)
WirelessSecurityPhase2Impl::WirelessSecurityPhase2Impl(TDEWiFiConnection* security_setting, TQWidget* parent, const char* name, WFlags fl)
: ConnectionSettingWirelessSecurityPhase2(parent, name, fl)
, _security_setting(security_setting)
{
_allowed_methods.append(IEEE8021x::EAP_PHASE2_AUTH_NONE);
_allowed_methods.append(TDENetworkIEEE8021xType::None);
updateMethodComboBox();
connect(cboPhase2Method, TQT_SIGNAL(activated(int)), this, TQT_SLOT(slotPhase2MethodChanged(int)));
@ -567,79 +597,79 @@ void WirelessSecurityPhase2Impl::updateMethodComboBox()
cboPhase2Method->clear();
_eapIndexMap.clear();
for (TQValueList<IEEE8021x::EAP_PHASE2>::Iterator it = _allowed_methods.begin(); it != _allowed_methods.end(); ++it)
for (TQValueList<TDENetworkIEEE8021xType::TDENetworkIEEE8021xType>::Iterator it = _allowed_methods.begin(); it != _allowed_methods.end(); ++it)
{
if ((*it) == IEEE8021x::EAP_PHASE2_AUTH_NONE)
if ((*it) == TDENetworkIEEE8021xType::None)
{
cboPhase2Method->insertItem(i18n("None"), index);
_eapIndexMap[index] = IEEE8021x::EAP_PHASE2_AUTH_NONE;
_eapIndexMap[index] = TDENetworkIEEE8021xType::None;
index++;
}
else if ((*it) == IEEE8021x::EAP_PHASE2_AUTH_MSCHAPV2)
else if ((*it) == TDENetworkIEEE8021xType::MSCHAPV2)
{
cboPhase2Method->insertItem(i18n("MSCHAPv2"), index);
_eapIndexMap[index] = IEEE8021x::EAP_PHASE2_AUTH_MSCHAPV2;
_eapIndexMap[index] = TDENetworkIEEE8021xType::MSCHAPV2;
index++;
}
else if ((*it) == IEEE8021x::EAP_PHASE2_AUTH_PAP)
else if ((*it) == TDENetworkIEEE8021xType::PAP)
{
cboPhase2Method->insertItem(i18n("PAP"), index);
_eapIndexMap[index] = IEEE8021x::EAP_PHASE2_AUTH_PAP;
_eapIndexMap[index] = TDENetworkIEEE8021xType::PAP;
index++;
}
else if ((*it) == IEEE8021x::EAP_PHASE2_AUTH_CHAP)
else if ((*it) == TDENetworkIEEE8021xType::CHAP)
{
cboPhase2Method->insertItem(i18n("CHAP"), index);
_eapIndexMap[index] = IEEE8021x::EAP_PHASE2_AUTH_CHAP;
_eapIndexMap[index] = TDENetworkIEEE8021xType::CHAP;
index++;
}
else if ((*it) == IEEE8021x::EAP_PHASE2_AUTH_MSCHAP)
else if ((*it) == TDENetworkIEEE8021xType::MSCHAP)
{
cboPhase2Method->insertItem(i18n("MSCHAP"), index);
_eapIndexMap[index] = IEEE8021x::EAP_PHASE2_AUTH_MSCHAP;
_eapIndexMap[index] = TDENetworkIEEE8021xType::MSCHAP;
index++;
}
else if ((*it) == IEEE8021x::EAP_PHASE2_AUTH_GTC)
else if ((*it) == TDENetworkIEEE8021xType::GTC)
{
cboPhase2Method->insertItem(i18n("GTC"), index);
_eapIndexMap[index] = IEEE8021x::EAP_PHASE2_AUTH_GTC;
_eapIndexMap[index] = TDENetworkIEEE8021xType::GTC;
index++;
}
else if ((*it) == IEEE8021x::EAP_PHASE2_AUTH_OTP)
else if ((*it) == TDENetworkIEEE8021xType::OTP)
{
cboPhase2Method->insertItem(i18n("OTP"), index);
_eapIndexMap[index] = IEEE8021x::EAP_PHASE2_AUTH_OTP;
_eapIndexMap[index] = TDENetworkIEEE8021xType::OTP;
index++;
}
else if ((*it) == IEEE8021x::EAP_PHASE2_AUTH_MD5)
else if ((*it) == TDENetworkIEEE8021xType::MD5)
{
cboPhase2Method->insertItem(i18n("MD5"), index);
_eapIndexMap[index] = IEEE8021x::EAP_PHASE2_AUTH_MD5;
_eapIndexMap[index] = TDENetworkIEEE8021xType::MD5;
index++;
}
else if ((*it) == IEEE8021x::EAP_PHASE2_AUTH_TLS)
else if ((*it) == TDENetworkIEEE8021xType::TLS)
{
cboPhase2Method->insertItem(i18n("TLS"), index);
_eapIndexMap[index] = IEEE8021x::EAP_PHASE2_AUTH_TLS;
_eapIndexMap[index] = TDENetworkIEEE8021xType::TLS;
index++;
}
}
// preselect the correct method
TQBiDirectionalMap<int, IEEE8021x::EAP_PHASE2>::Iterator it = _eapIndexMap.findData(_security_setting->getPhase2EAP());
TQBiDirectionalMap<int, TDENetworkIEEE8021xType::TDENetworkIEEE8021xType>::Iterator it = _eapIndexMap.findData(_security_setting->eapConfig.phase2EAPAuthMethod);
if (it != _eapIndexMap.end())
{
cboPhase2Method->setCurrentItem(it.key());
_security_setting->setPhase2EAP(it.data());
_security_setting->eapConfig.phase2EAPAuthMethod = it.data();
}
else
{
cboPhase2Method->setCurrentItem(0);
_security_setting->setPhase2EAP(_eapIndexMap[0]);
_security_setting->eapConfig.phase2EAPAuthMethod = _eapIndexMap[0];
}
}
void WirelessSecurityPhase2Impl::setAllowedPhase2Methods(const TQValueList<IEEE8021x::EAP_PHASE2>& list)
void WirelessSecurityPhase2Impl::setAllowedPhase2Methods(const TQValueList<TDENetworkIEEE8021xType::TDENetworkIEEE8021xType>& list)
{
_allowed_methods = list;
updateMethodComboBox();
@ -648,20 +678,20 @@ void WirelessSecurityPhase2Impl::setAllowedPhase2Methods(const TQValueList<IEEE8
void WirelessSecurityPhase2Impl::slotPhase2MethodChanged(int index)
{
// new method choosen
IEEE8021x::EAP_PHASE2 eap = _eapIndexMap[index];
_security_setting->setPhase2EAP(eap);
TDENetworkIEEE8021xType::TDENetworkIEEE8021xType eap = _eapIndexMap[index];
_security_setting->eapConfig.phase2EAPAuthMethod = eap;
}
/*
class WirelessSecurityWidgetImpl
*/
WirelessSecurityWidgetImpl::WirelessSecurityWidgetImpl(Connection* conn, bool new_conn, TQWidget* parent, const char* name, WFlags fl)
WirelessSecurityWidgetImpl::WirelessSecurityWidgetImpl(TDENetworkConnection* conn, bool new_conn, TQWidget* parent, const char* name, WFlags fl)
: WidgetInterface(parent, name, fl)
{
_security_setting = dynamic_cast<WirelessSecurity*> (conn->getSetting(NM_SETTING_WIRELESS_SECURITY_SETTING_NAME));
_wireless_setting = dynamic_cast<Wireless*> (conn->getSetting(NM_SETTING_WIRELESS_SETTING_NAME));
_ieee8021x_setting = dynamic_cast<IEEE8021x*> (conn->getSetting(NM_SETTING_802_1X_SETTING_NAME));
_security_setting = dynamic_cast<TDEWiFiConnection*> (conn);
_wireless_setting = dynamic_cast<TDEWiFiConnection*> (conn);
_ieee8021x_setting = dynamic_cast<TDEWiFiConnection*> (conn);
_new_conn = new_conn;
TQVBoxLayout* layout = new TQVBoxLayout(this, 1, 1);
@ -737,43 +767,43 @@ WirelessSecurityWidgetImpl::comboSecurityInit()
// TODO: Preselect the right security method
// We should have an Essid already, fetch all possible APs
TQValueList<AccessPoint *> aps;
if (_new_conn && !_wireless_setting->getEssid().isEmpty())
{
aps = WirelessManager::getAccessPointsForEssid(_wireless_setting->getEssid());
TQValueList<TDENetworkWiFiAPInfo*> aps;
if (_new_conn && !_wireless_setting->SSID.isEmpty()) {
aps = WirelessManager::getAccessPointsForEssid(_wireless_setting->SSID);
#if 0
kdDebug() << "Hugo " << TQString(TQCString(_wireless_setting->getEssid())).ascii() << endl;
#endif
}
if (!aps.isEmpty())
{
if (!aps.isEmpty()) {
// if at least one AP has this security setting show the entry in the combobox
for (TQValueList<AccessPoint*>::Iterator it = aps.begin(); it != aps.end(); ++it)
{
if((*it)->isEncrypted())
{
kdDebug() << "AP " << (*it)->getDisplaySsid().ascii() << " is encrypted" << endl;
if ((*it)->getRsnFlags() != NM_802_11_AP_SEC_NONE || (*it)->getWpaFlags() != NM_802_11_AP_SEC_NONE)
{
for (TQValueList<TDENetworkWiFiAPInfo*>::Iterator it = aps.begin(); it != aps.end(); ++it) {
if (((*it)->wpaFlags & TDENetworkWiFiAPFlags::PrivacySupport) || ((*it)->rsnFlags & TDENetworkWiFiAPFlags::PrivacySupport)) {
kdDebug() << "AP " << (*it)->friendlySSID().ascii() << " is encrypted" << endl;
if ((((*it)->rsnFlags & TDENetworkWiFiAPFlags::EncryptionFlagsMask) != TDENetworkWiFiAPFlags::None) || (((*it)->wpaFlags & TDENetworkWiFiAPFlags::EncryptionFlagsMask) != TDENetworkWiFiAPFlags::None)) {
// WPA or RSN
if ((*it)->getRsnFlags() & NM_802_11_AP_SEC_KEY_MGMT_PSK || (*it)->getWpaFlags() & NM_802_11_AP_SEC_KEY_MGMT_PSK)
if (!allowed_methods.contains(SECURITY_WPA_PSK))
if ((*it)->rsnFlags & TDENetworkWiFiAPFlags::KeyManagementPSK || (*it)->wpaFlags & TDENetworkWiFiAPFlags::KeyManagementPSK) {
if (!allowed_methods.contains(SECURITY_WPA_PSK)) {
allowed_methods.append(SECURITY_WPA_PSK);
}
}
if ((*it)->getRsnFlags() & NM_802_11_AP_SEC_KEY_MGMT_802_1X || (*it)->getWpaFlags() & NM_802_11_AP_SEC_KEY_MGMT_802_1X)
if (!allowed_methods.contains(SECURITY_WPA_EAP))
if ((*it)->rsnFlags & TDENetworkWiFiAPFlags::KeyManagement80211 || (*it)->wpaFlags & TDENetworkWiFiAPFlags::KeyManagement80211) {
if (!allowed_methods.contains(SECURITY_WPA_EAP)) {
allowed_methods.append(SECURITY_WPA_EAP);
}
}
}
// No WPA & RSN => WEP or dynamic WEP with 802.1x authentication
// TODO: an AP can provide WEP in addition to WPA
if (!allowed_methods.contains(SECURITY_WEP))
if (!allowed_methods.contains(SECURITY_WEP)) {
allowed_methods.append(SECURITY_WEP);
if (!allowed_methods.contains(SECURITY_IEEE8021X))
}
if (!allowed_methods.contains(SECURITY_IEEE8021X)) {
allowed_methods.append(SECURITY_IEEE8021X);
}
}
}
// insert only allowed security methods
if (allowed_methods.contains(SECURITY_WPA_PSK))
@ -815,14 +845,14 @@ WirelessSecurityWidgetImpl::comboSecurityInit()
if (!_new_conn)
{
switch(_security_setting->getKeyMgmt())
switch(_security_setting->securitySettings.keyType)
{
case WirelessSecurity::KEY_MGMT_NONE:
if (_security_setting->getAuthAlg() == WirelessSecurity::AUTH_ALG_SHARED ||
!_security_setting->getWepKey(0).isEmpty() ||
!_security_setting->getWepKey(1).isEmpty() ||
!_security_setting->getWepKey(2).isEmpty() ||
!_security_setting->getWepKey(3).isEmpty() )
case TDENetworkWiFiKeyType::WEP:
if (_security_setting->securitySettings.authType == TDENetworkWiFiAuthType::Shared ||
!_security_setting->securitySettings.wepKey0.isEmpty() ||
!_security_setting->securitySettings.wepKey1.isEmpty() ||
!_security_setting->securitySettings.wepKey2.isEmpty() ||
!_security_setting->securitySettings.wepKey3.isEmpty() )
{
_mainWid->groupUseEncryption->setChecked(true);
_mainWid->cboSecurity->setCurrentItem(SECURITY_WEP);
@ -831,17 +861,17 @@ WirelessSecurityWidgetImpl::comboSecurityInit()
else
_mainWid->groupUseEncryption->setChecked(false);
break;
case WirelessSecurity::KEY_MGMT_WPA_PSK:
case TDENetworkWiFiKeyType::WPAInfrastructure:
_mainWid->groupUseEncryption->setChecked(true);
_mainWid->cboSecurity->setCurrentItem(SECURITY_WPA_PSK);
slotComboSecurityActivated(_securityComboMap[SECURITY_WPA_PSK]);
break;
case WirelessSecurity::KEY_MGMT_WPA_EAP:
case TDENetworkWiFiKeyType::WPAEnterprise:
_mainWid->groupUseEncryption->setChecked(true);
_mainWid->cboSecurity->setCurrentItem(SECURITY_WPA_EAP);
slotComboSecurityActivated(_securityComboMap[SECURITY_WPA_EAP]);
break;
case WirelessSecurity::KEY_MGMT_IEEE8021X:
case TDENetworkWiFiKeyType::DynamicWEP:
_mainWid->groupUseEncryption->setChecked(true);
_mainWid->cboSecurity->setCurrentItem(SECURITY_IEEE8021X);
slotComboSecurityActivated(_securityComboMap[SECURITY_IEEE8021X]);
@ -872,7 +902,7 @@ WirelessSecurityWidgetImpl::comboSecurityInit()
void
WirelessSecurityWidgetImpl::slotUseEncryptionToggled(bool on)
{
_wireless_setting->setSecurity(on ? _security_setting->getType() : NULL);
_wireless_setting->securityRequired = on;
}
void
@ -968,28 +998,28 @@ WirelessSecurityWidgetImpl::slotExtraSettingsToggled(bool on)
void
WirelessSecurityWidgetImpl::configureForWEP()
{
_security_setting->setKeyMgmt(WirelessSecurity::KEY_MGMT_NONE);
_security_setting->securitySettings.keyType = TDENetworkWiFiKeyType::WEP;
configureWidgets(SECURITY_WEP);
}
void
WirelessSecurityWidgetImpl::configureForWPAPSK()
{
_security_setting->setKeyMgmt(WirelessSecurity::KEY_MGMT_WPA_PSK);
_security_setting->securitySettings.keyType = TDENetworkWiFiKeyType::WPAInfrastructure;
configureWidgets(SECURITY_WPA_PSK);
}
void
WirelessSecurityWidgetImpl::configureForWPAEAP()
{
_security_setting->setKeyMgmt(WirelessSecurity::KEY_MGMT_WPA_EAP);
_security_setting->securitySettings.keyType = TDENetworkWiFiKeyType::WPAEnterprise;
configureWidgets(SECURITY_WPA_EAP);
}
void
WirelessSecurityWidgetImpl::configureForIEEE8021X()
{
_security_setting->setKeyMgmt(WirelessSecurity::KEY_MGMT_IEEE8021X);
_security_setting->securitySettings.keyType = TDENetworkWiFiKeyType::DynamicWEP;
configureWidgets(SECURITY_IEEE8021X);
}

@ -25,7 +25,7 @@
#ifndef KNETWORKMANAGER_CONNECTION_SETTING_WIRELESS_SECURITY_WIDGET_H
#define KNETWORKMANAGER_CONNECTION_SETTING_WIRELESS_SECURITY_WIDGET_H
/* qt autogenerated headers */
/* ui autogenerated headers */
#include "connection_setting_wireless_security.h"
#include "connection_setting_wireless_security_eap.h"
#include "connection_setting_wireless_security_phase2.h"
@ -35,9 +35,12 @@
#include "connection_setting_wireless_security_wpapsk.h"
#include "connection_setting_wireless_security_wepencryption.h"
// tde headers
#include <tdehardwaredevices.h>
#include <tdenetworkconnections.h>
/* knetworkmanager headers */
#include "knetworkmanager-connection_setting.h"
#include "knetworkmanager-connection_setting_8021x.h"
#include "qbidirectionalmap.h"
#include "knetworkmanager-connection_setting_widget_interface.h"
namespace ConnectionSettings
@ -45,7 +48,6 @@ namespace ConnectionSettings
/* class declarations */
class WirelessSecurity;
class Wireless;
class IEEE8021x;
class WirelessSecurityPhase2Impl;
class WirelessSecurityWEPImpl : public ConnectionSettingWirelessSecurityWEP
@ -60,7 +62,7 @@ namespace ConnectionSettings
, WEPKEY_TYPE_PASSPHRASE
};
WirelessSecurityWEPImpl(WirelessSecurity* security, TQWidget* parent = 0, const char* name = 0, WFlags fl = 0);
WirelessSecurityWEPImpl(TDEWiFiConnection* security, TQWidget* parent = 0, const char* name = 0, WFlags fl = 0);
TQCString getHashedWEPKey(TQString key, WEPKEY_TYPE type) const;
TQCString getWEP128PassphraseHash(TQCString input) const;
TQCString String2Hex(TQByteArray bytes, int final_len) const;
@ -77,7 +79,7 @@ namespace ConnectionSettings
void slotWepIdx2Checked(bool);
void slotWepIdx3Checked(bool);
private:
WirelessSecurity* _security_setting;
TDEWiFiConnection* _security_setting;
WEPKEY_TYPE _wepKeyType;
};
@ -86,9 +88,9 @@ namespace ConnectionSettings
Q_OBJECT
public:
WirelessSecurityWEPEncryptionImpl(WirelessSecurity* security_setting, TQWidget* parent = 0, const char* name = 0, WFlags fl = 0);
WirelessSecurityWEPEncryptionImpl(TDEWiFiConnection* security_setting, TQWidget* parent = 0, const char* name = 0, WFlags fl = 0);
private:
WirelessSecurity* _security_setting;
TDEWiFiConnection* _security_setting;
};
class WirelessSecurityWPAVersionImpl : public ConnectionSettingWirelessSecurityWPAVersion
@ -96,7 +98,7 @@ namespace ConnectionSettings
Q_OBJECT
public:
WirelessSecurityWPAVersionImpl(WirelessSecurity* security_setting, TQWidget* parent = 0, const char* name = 0, WFlags fl = 0);
WirelessSecurityWPAVersionImpl(TDEWiFiConnection* security_setting, TQWidget* parent = 0, const char* name = 0, WFlags fl = 0);
public slots:
void slotAuto(bool);
@ -104,7 +106,7 @@ namespace ConnectionSettings
void slotWPA2(bool);
private:
WirelessSecurity* _security_setting;
TDEWiFiConnection* _security_setting;
};
@ -121,7 +123,7 @@ namespace ConnectionSettings
, WPA_CIPHER_LAST
};
public:
WirelessSecurityWPACipherImpl(WirelessSecurity* security_setting, TQWidget* parent = 0, const char* name = 0, WFlags fl = 0);
WirelessSecurityWPACipherImpl(TDEWiFiConnection* security_setting, TQWidget* parent = 0, const char* name = 0, WFlags fl = 0);
public slots:
void slotCipherChangedAuto(bool);
@ -133,7 +135,7 @@ namespace ConnectionSettings
void slotPairwiseCipherChangedCCMP(bool);
private:
WirelessSecurity* _security_setting;
TDEWiFiConnection* _security_setting;
};
class WirelessSecurityWPAPSKImpl : public ConnectionSettingWirelessSecurityWPAPSK
@ -141,15 +143,15 @@ namespace ConnectionSettings
Q_OBJECT
public:
WirelessSecurityWPAPSKImpl(WirelessSecurity* security_setting, Wireless* wireless_setting, TQWidget* parent = 0, const char* name = 0, WFlags fl = 0);
WirelessSecurityWPAPSKImpl(TDEWiFiConnection* security_setting, TDEWiFiConnection* wireless_setting, TQWidget* parent = 0, const char* name = 0, WFlags fl = 0);
TQCString String2Hex(TQByteArray bytes, int final_len) const;
public slots:
void slotPSKChanged(const TQString&);
private:
WirelessSecurity* _security_setting;
Wireless* _wireless_setting;
TDEWiFiConnection* _security_setting;
TDEWiFiConnection* _wireless_setting;
};
class WirelessSecurityEAPImpl : public ConnectionSettingWirelessSecurityEAP
@ -157,7 +159,7 @@ namespace ConnectionSettings
Q_OBJECT
public:
WirelessSecurityEAPImpl(IEEE8021x* security_setting, WirelessSecurityPhase2Impl* phase2_widget, TQWidget* parent = 0, const char* name = 0, WFlags fl = 0);
WirelessSecurityEAPImpl(TDEWiFiConnection* security_setting, WirelessSecurityPhase2Impl* phase2_widget, TQWidget* parent = 0, const char* name = 0, WFlags fl = 0);
public slots:
void slotMethodChanged(int index);
@ -167,8 +169,8 @@ namespace ConnectionSettings
void slotUseSystemCaCertChanged(bool on);
private:
IEEE8021x* _security_setting;
TQBiDirectionalMap<int, IEEE8021x::EAP_PHASE1> _eapIndexMap;
TDEWiFiConnection* _security_setting;
TQBiDirectionalMap<int, TDENetworkIEEE8021xType::TDENetworkIEEE8021xType> _eapIndexMap;
WirelessSecurityPhase2Impl* _phase2_widget;
};
@ -177,16 +179,16 @@ namespace ConnectionSettings
Q_OBJECT
public:
WirelessSecurityPhase2Impl(IEEE8021x* security_setting, TQWidget* parent = 0, const char* name = 0, WFlags fl = 0);
WirelessSecurityPhase2Impl(TDEWiFiConnection* security_setting, TQWidget* parent = 0, const char* name = 0, WFlags fl = 0);
public slots:
void setAllowedPhase2Methods(const TQValueList<IEEE8021x::EAP_PHASE2>&);
void setAllowedPhase2Methods(const TQValueList<TDENetworkIEEE8021xType::TDENetworkIEEE8021xType>&);
void slotPhase2MethodChanged(int index);
private:
void updateMethodComboBox();
IEEE8021x* _security_setting;
TQBiDirectionalMap<int, IEEE8021x::EAP_PHASE2> _eapIndexMap;
TQValueList<IEEE8021x::EAP_PHASE2> _allowed_methods;
TDEWiFiConnection* _security_setting;
TQBiDirectionalMap<int, TDENetworkIEEE8021xType::TDENetworkIEEE8021xType> _eapIndexMap;
TQValueList<TDENetworkIEEE8021xType::TDENetworkIEEE8021xType> _allowed_methods;
};
class WirelessSecurityWidgetImpl : public WidgetInterface
@ -204,7 +206,7 @@ namespace ConnectionSettings
};
public:
WirelessSecurityWidgetImpl(Connection*, bool new_conn, TQWidget* parent = 0, const char* name = 0, WFlags fl = 0);
WirelessSecurityWidgetImpl(TDENetworkConnection*, bool new_conn, TQWidget* parent = 0, const char* name = 0, WFlags fl = 0);
void Activate();
public slots:
@ -226,9 +228,9 @@ namespace ConnectionSettings
SecurityMethods _currentMethod;
TQValueList<TQWidget*> _widgets[SECURITY_COUNT];
TQValueList<TQWidget*> _extra_widgets[SECURITY_COUNT];
WirelessSecurity* _security_setting;
Wireless* _wireless_setting;
IEEE8021x* _ieee8021x_setting;
TDEWiFiConnection* _security_setting;
TDEWiFiConnection* _wireless_setting;
TDEWiFiConnection* _ieee8021x_setting;
ConnectionSettingWirelessSecurityWidget* _mainWid;
bool _new_conn;
TQMap<int, SecurityMethods> _securityComboMap;

@ -34,14 +34,11 @@
#include <kiconloader.h>
#include <kglobal.h>
#include <kpushbutton.h>
#include <klocale.h>
#include "knetworkmanager-connection.h"
#include "knetworkmanager-connection_setting_widget_interface.h"
#include "knetworkmanager-connection_setting_wireless_widget.h"
#include "knetworkmanager-connection_setting_wireless.h"
#include "knetworkmanager-connection_setting_wireless_security.h"
#include "knetworkmanager-connection_setting_info.h"
#include "knetworkmanager-wireless_network.h"
#include "knetworkmanager-wireless_manager.h"
using namespace ConnectionSettings;
@ -73,13 +70,13 @@ class NetworkListViewItem : public KListViewItem
WirelessNetwork _net;
};
WirelessWidgetImpl::WirelessWidgetImpl(Connection* conn, bool new_conn, TQWidget* parent, const char* name, WFlags fl)
WirelessWidgetImpl::WirelessWidgetImpl(TDENetworkConnection* conn, bool new_conn, TQWidget* parent, const char* name, WFlags fl)
: WidgetInterface(parent, name, fl)
{
_wireless_setting = dynamic_cast<Wireless*> (conn->getSetting(NM_SETTING_WIRELESS_SETTING_NAME));
_info_setting = dynamic_cast<Info*> (conn->getSetting(NM_SETTING_CONNECTION_SETTING_NAME));
_security_setting = dynamic_cast<WirelessSecurity*> (conn->getSetting(NM_SETTING_WIRELESS_SECURITY_SETTING_NAME));
_hasName = !_info_setting->getName().isEmpty();
_wireless_setting = dynamic_cast<TDEWiFiConnection*>(conn);
_info_setting = dynamic_cast<TDEWiFiConnection*>(conn);
_security_setting = dynamic_cast<TDEWiFiConnection*>(conn);
_hasName = !_info_setting->friendlyName.isEmpty();
_new_conn = new_conn;
TQVBoxLayout* layout = new TQVBoxLayout(this, 1, 1);
@ -128,7 +125,7 @@ WirelessWidgetImpl::Activate()
}
// FIXME, if essid contains unprintable characters show the essid in hex
_mainWid->txtEssid->setText(_wireless_setting->getEssid());
_mainWid->txtEssid->setText(_wireless_setting->SSID);
}
void WirelessWidgetImpl::slotEssidChanged(TQListViewItem* item)
@ -176,12 +173,15 @@ WirelessWidgetImpl::slotEssidChanged(const TQString& new_essid)
void
WirelessWidgetImpl::updateEssid(const TQByteArray& essid)
{
_wireless_setting->setEssid(essid);
_wireless_setting->SSID = essid;
if (!_hasName)
{
// the connection has no name yet -> just take the essid for it
_info_setting->setName(essid);
_info_setting->friendlyName = TQString(essid);
if (_info_setting->friendlyName == "") {
_info_setting->friendlyName = "<" + i18n("hidden") + ">";
}
}
}

@ -26,9 +26,12 @@
#ifndef KNETWORKMANAGER_CONNECTION_SETTING_WIRELESS_WIDGET_H
#define KNETWORKMANAGER_CONNECTION_SETTING_WIRELESS_WIDGET_H
// tde headers
#include <tdehardwaredevices.h>
#include <tdenetworkconnections.h>
#include "knetworkmanager-connection_setting_widget_interface.h"
#include "connection_setting_wireless.h"
#include "knetworkmanager-connection_setting.h"
class KListViewSearchLineWidget;
@ -44,7 +47,7 @@ namespace ConnectionSettings
Q_OBJECT
public:
WirelessWidgetImpl(Connection* conn, bool new_conn, TQWidget* parent = 0, const char* name = 0, WFlags fl = 0);
WirelessWidgetImpl(TDENetworkConnection* conn, bool new_conn, TQWidget* parent = 0, const char* name = 0, WFlags fl = 0);
void Activate();
@ -60,9 +63,9 @@ namespace ConnectionSettings
TQString hexStringFromByteArray(const TQByteArray& );
bool _hasName;
Wireless* _wireless_setting;
Info* _info_setting;
WirelessSecurity* _security_setting;
TDEWiFiConnection* _wireless_setting;
TDEWiFiConnection* _info_setting;
TDEWiFiConnection* _security_setting;
ConnectionSettingWirelessWidget* _mainWid;
KListViewSearchLineWidget* _searchLine;
bool _new_conn;

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