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/****************************************************************************
**
** Copyright (C) 2012 Nokia Corporation and/or its subsidiary(-ies).
** All rights reserved.
** Contact: Nokia Corporation (qt-info@nokia.com)
**
** This file is part of the plugins of the Qt Toolkit.
**
** $QT_BEGIN_LICENSE:LGPL$
** GNU Lesser General Public License Usage
** This file may be used under the terms of the GNU Lesser General Public
** License version 2.1 as published by the Free Software Foundation and
** appearing in the file LICENSE.LGPL included in the packaging of this
** file. Please review the following information to ensure the GNU Lesser
** General Public License version 2.1 requirements will be met:
** http://www.gnu.org/licenses/old-licenses/lgpl-2.1.html.
**
** In addition, as a special exception, Nokia gives you certain additional
** rights. These rights are described in the Nokia Qt LGPL Exception
** version 1.1, included in the file LGPL_EXCEPTION.txt in this package.
**
** GNU General Public License Usage
** Alternatively, this file may be used under the terms of the GNU General
** Public License version 3.0 as published by the Free Software Foundation
** and appearing in the file LICENSE.GPL included in the packaging of this
** file. Please review the following information to ensure the GNU General
** Public License version 3.0 requirements will be met:
** http://www.gnu.org/copyleft/gpl.html.
**
** Other Usage
** Alternatively, this file may be used in accordance with the terms and
** conditions contained in a signed written agreement between you and Nokia.
**
**
**
**
**
** $QT_END_LICENSE$
**
****************************************************************************/
#include "qicdengine.h"
#include "qnetworksession_impl.h"
#include <wlancond.h>
#include <wlan-utils.h>
#include <iapconf.h>
#include <iapmonitor.h>
#ifndef QT_NO_BEARERMANAGEMENT
QT_BEGIN_NAMESPACE
IcdNetworkConfigurationPrivate::IcdNetworkConfigurationPrivate()
: service_attrs(0), network_attrs(0)
{
}
IcdNetworkConfigurationPrivate::~IcdNetworkConfigurationPrivate()
{
}
QString IcdNetworkConfigurationPrivate::bearerTypeName() const
{
QMutexLocker locker(&mutex);
return iap_type;
}
/******************************************************************************/
/** IapAddTimer specific */
/******************************************************************************/
/* The IapAddTimer is a helper class that makes sure we update
* the configuration only after all db additions to certain
* iap are finished (after a certain timeout)
*/
class _IapAddTimer : public QObject
{
Q_OBJECT
public:
_IapAddTimer() {}
~_IapAddTimer()
{
if (timer.isActive()) {
QObject::disconnect(&timer, SIGNAL(timeout()), this, SLOT(timeout()));
timer.stop();
}
}
void add(QString& iap_id, QIcdEngine *d);
QString iap_id;
QTimer timer;
QIcdEngine *d;
public Q_SLOTS:
void timeout();
};
void _IapAddTimer::add(QString& id, QIcdEngine *d_ptr)
{
iap_id = id;
d = d_ptr;
if (timer.isActive()) {
QObject::disconnect(&timer, SIGNAL(timeout()), this, SLOT(timeout()));
timer.stop();
}
timer.setSingleShot(true);
QObject::connect(&timer, SIGNAL(timeout()), this, SLOT(timeout()));
timer.start(1500);
}
void _IapAddTimer::timeout()
{
d->addConfiguration(iap_id);
}
class IapAddTimer {
QHash<QString, _IapAddTimer* > timers;
public:
IapAddTimer() {}
~IapAddTimer() {}
void add(QString& iap_id, QIcdEngine *d);
void del(QString& iap_id);
void removeAll();
};
void IapAddTimer::removeAll()
{
QHashIterator<QString, _IapAddTimer* > i(timers);
while (i.hasNext()) {
i.next();
_IapAddTimer *t = i.value();
delete t;
}
timers.clear();
}
void IapAddTimer::add(QString& iap_id, QIcdEngine *d)
{
if (timers.contains(iap_id)) {
_IapAddTimer *iap = timers.value(iap_id);
iap->add(iap_id, d);
} else {
_IapAddTimer *iap = new _IapAddTimer;
iap->add(iap_id, d);
timers.insert(iap_id, iap);
}
}
void IapAddTimer::del(QString& iap_id)
{
if (timers.contains(iap_id)) {
_IapAddTimer *iap = timers.take(iap_id);
delete iap;
}
}
/******************************************************************************/
/** IAPMonitor specific */
/******************************************************************************/
class IapMonitor : public Maemo::IAPMonitor
{
public:
IapMonitor() : first_call(true) { }
void setup(QIcdEngine *d);
void cleanup();
protected:
void iapAdded(const QString &iapId);
void iapRemoved(const QString &iapId);
private:
bool first_call;
QIcdEngine *d;
IapAddTimer timers;
};
void IapMonitor::setup(QIcdEngine *d_ptr)
{
if (first_call) {
d = d_ptr;
first_call = false;
}
}
void IapMonitor::cleanup()
{
if (!first_call) {
timers.removeAll();
first_call = true;
}
}
void IapMonitor::iapAdded(const QString &iap_id)
{
/* We cannot know when the IAP is fully added to db, so a timer is
* installed instead. When the timer expires we hope that IAP is added ok.
*/
QString id = iap_id;
timers.add(id, d);
}
void IapMonitor::iapRemoved(const QString &iap_id)
{
QString id = iap_id;
d->deleteConfiguration(id);
}
/******************************************************************************/
/** QIcdEngine implementation */
/******************************************************************************/
QIcdEngine::QIcdEngine(QObject *parent)
: QBearerEngine(parent), iapMonitor(0), m_dbusInterface(0), m_icdServiceWatcher(0),
firstUpdate(true), m_scanGoingOn(false)
{
}
QIcdEngine::~QIcdEngine()
{
cleanup();
delete iapMonitor;
}
QNetworkConfigurationManager::Capabilities QIcdEngine::capabilities() const
{
return QNetworkConfigurationManager::CanStartAndStopInterfaces |
QNetworkConfigurationManager::DataStatistics |
QNetworkConfigurationManager::ForcedRoaming |
QNetworkConfigurationManager::NetworkSessionRequired;
}
bool QIcdEngine::ensureDBusConnection()
{
if (m_dbusInterface)
return true;
// Setup DBus Interface for ICD
m_dbusInterface = new QDBusInterface(ICD_DBUS_API_INTERFACE,
ICD_DBUS_API_PATH,
ICD_DBUS_API_INTERFACE,
QDBusConnection::systemBus(),
this);
if (!m_dbusInterface->isValid()) {
delete m_dbusInterface;
m_dbusInterface = 0;
if (!m_icdServiceWatcher) {
m_icdServiceWatcher = new QDBusServiceWatcher(ICD_DBUS_API_INTERFACE,
QDBusConnection::systemBus(),
QDBusServiceWatcher::WatchForOwnerChange,
this);
connect(m_icdServiceWatcher, SIGNAL(serviceOwnerChanged(QString,QString,QString)),
this, SLOT(icdServiceOwnerChanged(QString,QString,QString)));
}
return false;
}
connect(&m_scanTimer, SIGNAL(timeout()), this, SLOT(finishAsyncConfigurationUpdate()));
m_scanTimer.setSingleShot(true);
/* Turn on IAP state monitoring */
startListeningStateSignalsForAllConnections();
/* Turn on IAP add/remove monitoring */
iapMonitor = new IapMonitor;
iapMonitor->setup(this);
/* We create a default configuration which is a pseudo config */
QNetworkConfigurationPrivate *cpPriv = new IcdNetworkConfigurationPrivate;
cpPriv->name = "UserChoice";
cpPriv->state = QNetworkConfiguration::Discovered;
cpPriv->isValid = true;
cpPriv->id = OSSO_IAP_ANY;
cpPriv->type = QNetworkConfiguration::UserChoice;
cpPriv->purpose = QNetworkConfiguration::UnknownPurpose;
cpPriv->roamingSupported = false;
QNetworkConfigurationPrivatePointer ptr(cpPriv);
userChoiceConfigurations.insert(cpPriv->id, ptr);
doRequestUpdate();
getIcdInitialState();
return true;
}
void QIcdEngine::initialize()
{
QMutexLocker locker(&mutex);
if (!ensureDBusConnection()) {
locker.unlock();
emit updateCompleted();
locker.relock();
}
}
static inline QString network_attrs_to_security(uint network_attrs)
{
uint cap = 0;
nwattr2cap(network_attrs, &cap); /* from libicd-network-wlan-dev.h */
if (cap & WLANCOND_OPEN)
return "NONE";
else if (cap & WLANCOND_WEP)
return "WEP";
else if (cap & WLANCOND_WPA_PSK)
return "WPA_PSK";
else if (cap & WLANCOND_WPA_EAP)
return "WPA_EAP";
return "";
}
struct SSIDInfo {
QString iap_id;
QString wlan_security;
};
void QIcdEngine::deleteConfiguration(const QString &iap_id)
{
QMutexLocker locker(&mutex);
/* Called when IAPs are deleted in db, in this case we do not scan
* or read all the IAPs from db because it might take too much power
* (multiple applications would need to scan and read all IAPs from db)
*/
QNetworkConfigurationPrivatePointer ptr = accessPointConfigurations.take(iap_id);
if (ptr) {
#ifdef BEARER_MANAGEMENT_DEBUG
qDebug() << "IAP" << iap_id << "was removed from storage.";
#endif
locker.unlock();
emit configurationRemoved(ptr);
} else {
#ifdef BEARER_MANAGEMENT_DEBUG
qDebug("IAP: %s, already missing from the known list", iap_id.toAscii().data());
#endif
}
}
static quint32 getNetworkAttrs(bool is_iap_id,
const QString &iap_id,
const QString &iap_type,
QString security_method)
{
guint network_attr = 0;
dbus_uint32_t cap = 0;
if (iap_type == "WLAN_INFRA")
cap |= WLANCOND_INFRA;
else if (iap_type == "WLAN_ADHOC")
cap |= WLANCOND_ADHOC;
if (security_method.isEmpty() && (cap & (WLANCOND_INFRA | WLANCOND_ADHOC))) {
Maemo::IAPConf saved_ap(iap_id);
security_method = saved_ap.value("wlan_security").toString();
}
if (!security_method.isEmpty()) {
if (security_method == "WEP")
cap |= WLANCOND_WEP;
else if (security_method == "WPA_PSK")
cap |= WLANCOND_WPA_PSK;
else if (security_method == "WPA_EAP")
cap |= WLANCOND_WPA_EAP;
else if (security_method == "NONE")
cap |= WLANCOND_OPEN;
if (cap & (WLANCOND_WPA_PSK | WLANCOND_WPA_EAP)) {
Maemo::IAPConf saved_iap(iap_id);
bool wpa2_only = saved_iap.value("EAP_wpa2_only_mode").toBool();
if (wpa2_only) {
cap |= WLANCOND_WPA2;
}
}
}
cap2nwattr(cap, &network_attr);
if (is_iap_id)
network_attr |= ICD_NW_ATTR_IAPNAME;
return quint32(network_attr);
}
void QIcdEngine::addConfiguration(QString& iap_id)
{
// Note: When new IAP is created, this function gets called multiple times
// in a row.
// For example: Empty type & name for WLAN was stored into newly
// created IAP data in gconf when this function gets
// called for the first time.
// WLAN type & name are updated into IAP data in gconf
// as soon as WLAN connection is up and running.
// => And this function gets called again.
QMutexLocker locker(&mutex);
if (!accessPointConfigurations.contains(iap_id)) {
Maemo::IAPConf saved_iap(iap_id);
QString iap_type = saved_iap.value("type").toString();
QString iap_name = saved_iap.value("name").toString();
QByteArray ssid = saved_iap.value("wlan_ssid").toByteArray();
if (!iap_type.isEmpty() && !iap_name.isEmpty()) {
// Check if new IAP is actually Undefined WLAN configuration
// Note: SSID is used as an iap id for Undefined WLAN configurations
// => configuration must be searched using SSID
if (!ssid.isEmpty() && accessPointConfigurations.contains(ssid)) {
QNetworkConfigurationPrivatePointer ptr = accessPointConfigurations.take(ssid);
if (ptr) {
ptr->mutex.lock();
ptr->id = iap_id;
toIcdConfig(ptr)->iap_type = iap_type;
ptr->bearerType = bearerTypeFromIapType(iap_type);
toIcdConfig(ptr)->network_attrs = getNetworkAttrs(true, iap_id, iap_type, QString());
toIcdConfig(ptr)->network_id = ssid;
toIcdConfig(ptr)->service_id = saved_iap.value("service_id").toString();
toIcdConfig(ptr)->service_type = saved_iap.value("service_type").toString();
if (m_onlineIapId == iap_id) {
ptr->state = QNetworkConfiguration::Active;
} else {
ptr->state = QNetworkConfiguration::Defined;
}
ptr->mutex.unlock();
accessPointConfigurations.insert(iap_id, ptr);
locker.unlock();
emit configurationChanged(ptr);
locker.relock();
}
} else {
IcdNetworkConfigurationPrivate *cpPriv = new IcdNetworkConfigurationPrivate;
cpPriv->name = saved_iap.value("name").toString();
if (cpPriv->name.isEmpty())
cpPriv->name = iap_id;
cpPriv->isValid = true;
cpPriv->id = iap_id;
cpPriv->iap_type = iap_type;
cpPriv->bearerType = bearerTypeFromIapType(iap_type);
cpPriv->network_attrs = getNetworkAttrs(true, iap_id, iap_type, QString());
cpPriv->service_id = saved_iap.value("service_id").toString();
cpPriv->service_type = saved_iap.value("service_type").toString();
if (iap_type.startsWith(QLatin1String("WLAN"))) {
QByteArray ssid = saved_iap.value("wlan_ssid").toByteArray();
if (ssid.isEmpty()) {
qWarning() << "Cannot get ssid for" << iap_id;
}
cpPriv->network_id = ssid;
}
cpPriv->type = QNetworkConfiguration::InternetAccessPoint;
if (m_onlineIapId == iap_id) {
cpPriv->state = QNetworkConfiguration::Active;
} else {
cpPriv->state = QNetworkConfiguration::Defined;
}
QNetworkConfigurationPrivatePointer ptr(cpPriv);
accessPointConfigurations.insert(iap_id, ptr);
#ifdef BEARER_MANAGEMENT_DEBUG
qDebug("IAP: %s, name: %s, added to known list", iap_id.toAscii().data(), cpPriv->name.toAscii().data());
#endif
locker.unlock();
emit configurationAdded(ptr);
locker.relock();
}
} else {
qWarning("IAP %s does not have \"type\" or \"name\" fields defined, skipping this IAP.", iap_id.toAscii().data());
}
} else {
#ifdef BEARER_MANAGEMENT_DEBUG
qDebug() << "IAP" << iap_id << "already in db.";
#endif
/* Check if the data in db changed and update configuration accordingly
*/
QNetworkConfigurationPrivatePointer ptr = accessPointConfigurations.value(iap_id);
if (ptr) {
Maemo::IAPConf changed_iap(iap_id);
QString iap_type = changed_iap.value("type").toString();
bool update_needed = false; /* if IAP type or ssid changed, we need to change the state */
QMutexLocker configLocker(&ptr->mutex);
toIcdConfig(ptr)->network_attrs = getNetworkAttrs(true, iap_id, iap_type, QString());
toIcdConfig(ptr)->service_id = changed_iap.value("service_id").toString();
toIcdConfig(ptr)->service_type = changed_iap.value("service_type").toString();
if (!iap_type.isEmpty()) {
ptr->name = changed_iap.value("name").toString();
if (ptr->name.isEmpty())
ptr->name = iap_id;
ptr->isValid = true;
if (toIcdConfig(ptr)->iap_type != iap_type) {
toIcdConfig(ptr)->iap_type = iap_type;
ptr->bearerType = bearerTypeFromIapType(iap_type);
update_needed = true;
}
if (iap_type.startsWith(QLatin1String("WLAN"))) {
QByteArray ssid = changed_iap.value("wlan_ssid").toByteArray();
if (ssid.isEmpty()) {
qWarning() << "Cannot get ssid for" << iap_id;
}
if (toIcdConfig(ptr)->network_id != ssid) {
toIcdConfig(ptr)->network_id = ssid;
update_needed = true;
}
}
}
if (update_needed) {
ptr->type = QNetworkConfiguration::InternetAccessPoint;
if (m_onlineIapId == iap_id) {
if (ptr->state < QNetworkConfiguration::Active) {
ptr->state = QNetworkConfiguration::Active;
configLocker.unlock();
locker.unlock();
emit configurationChanged(ptr);
locker.relock();
}
} else if (ptr->state < QNetworkConfiguration::Defined) {
ptr->state = QNetworkConfiguration::Defined;
configLocker.unlock();
locker.unlock();
emit configurationChanged(ptr);
locker.relock();
}
}
} else {
qWarning("Cannot find IAP %s from current configuration although it should be there.", iap_id.toAscii().data());
}
}
}
void QIcdEngine::doRequestUpdate(QList<Maemo::IcdScanResult> scanned)
{
/* Contains all known iap_ids from storage */
QList<QString> knownConfigs = accessPointConfigurations.keys();
/* Contains all known WLAN network ids (like ssid) from storage */
QMultiHash<QByteArray, SSIDInfo* > notDiscoveredWLANConfigs;
QList<QString> all_iaps;
Maemo::IAPConf::getAll(all_iaps);
foreach (const QString &iap_id, all_iaps) {
QByteArray ssid;
Maemo::IAPConf saved_ap(iap_id);
bool is_temporary = saved_ap.value("temporary").toBool();
if (is_temporary) {
#ifdef BEARER_MANAGEMENT_DEBUG
qDebug() << "IAP" << iap_id << "is temporary, skipping it.";
#endif
continue;
}
QString iap_type = saved_ap.value("type").toString();
if (iap_type.startsWith(QLatin1String("WLAN"))) {
ssid = saved_ap.value("wlan_ssid").toByteArray();
if (ssid.isEmpty())
continue;
QString security_method = saved_ap.value("wlan_security").toString();
SSIDInfo *info = new SSIDInfo;
info->iap_id = iap_id;
info->wlan_security = security_method;
notDiscoveredWLANConfigs.insert(ssid, info);
} else if (iap_type.isEmpty()) {
continue;
} else {
#ifdef BEARER_MANAGEMENT_DEBUG
qDebug() << "IAP" << iap_id << "network type is" << iap_type;
#endif
ssid.clear();
}
if (!accessPointConfigurations.contains(iap_id)) {
IcdNetworkConfigurationPrivate *cpPriv = new IcdNetworkConfigurationPrivate;
cpPriv->name = saved_ap.value("name").toString();
if (cpPriv->name.isEmpty()) {
if (!ssid.isEmpty() && ssid.size() > 0)
cpPriv->name = ssid.data();
else
cpPriv->name = iap_id;
}
cpPriv->isValid = true;
cpPriv->id = iap_id;
cpPriv->network_id = ssid;
cpPriv->network_attrs = getNetworkAttrs(true, iap_id, iap_type, QString());
cpPriv->iap_type = iap_type;
cpPriv->bearerType = bearerTypeFromIapType(iap_type);
cpPriv->service_id = saved_ap.value("service_id").toString();
cpPriv->service_type = saved_ap.value("service_type").toString();
cpPriv->type = QNetworkConfiguration::InternetAccessPoint;
cpPriv->state = QNetworkConfiguration::Defined;
QNetworkConfigurationPrivatePointer ptr(cpPriv);
accessPointConfigurations.insert(iap_id, ptr);
mutex.unlock();
emit configurationAdded(ptr);
mutex.lock();
#ifdef BEARER_MANAGEMENT_DEBUG
qDebug("IAP: %s, name: %s, ssid: %s, added to known list",
iap_id.toAscii().data(), ptr->name.toAscii().data(),
!ssid.isEmpty() ? ssid.data() : "-");
#endif
} else {
knownConfigs.removeOne(iap_id);
#ifdef BEARER_MANAGEMENT_DEBUG
qDebug("IAP: %s, ssid: %s, already exists in the known list",
iap_id.toAscii().data(), !ssid.isEmpty() ? ssid.data() : "-");
#endif
}
}
/* This is skipped in the first update as scanned size is zero */
if (!scanned.isEmpty()) {
for (int i=0; i<scanned.size(); ++i) {
const Maemo::IcdScanResult ap = scanned.at(i);
if (ap.scan.network_attrs & ICD_NW_ATTR_IAPNAME) {
/* The network_id is IAP id, so the IAP is a known one */
QString iapid = ap.scan.network_id.data();
QNetworkConfigurationPrivatePointer ptr = accessPointConfigurations.value(iapid);
if (ptr) {
bool changed = false;
ptr->mutex.lock();
if (!ptr->isValid) {
ptr->isValid = true;
changed = true;
}
/* If this config is the current active one, we do not set it
* to discovered.
*/
if ((ptr->state != QNetworkConfiguration::Discovered) &&
(ptr->state != QNetworkConfiguration::Active)) {
ptr->state = QNetworkConfiguration::Discovered;
changed = true;
}
toIcdConfig(ptr)->network_attrs = ap.scan.network_attrs;
toIcdConfig(ptr)->service_id = ap.scan.service_id;
toIcdConfig(ptr)->service_type = ap.scan.service_type;
toIcdConfig(ptr)->service_attrs = ap.scan.service_attrs;
#ifdef BEARER_MANAGEMENT_DEBUG
qDebug("IAP: %s, ssid: %s, discovered",
iapid.toAscii().data(), toIcdConfig(ptr)->network_id.data());
#endif
ptr->mutex.unlock();
if (changed) {
mutex.unlock();
emit configurationChanged(ptr);
mutex.lock();
}
if (!ap.scan.network_type.startsWith(QLatin1String("WLAN")))
continue; // not a wlan AP
/* Remove scanned AP from discovered WLAN configurations so that we can
* emit configurationRemoved signal later
*/
ptr->mutex.lock();
QList<SSIDInfo* > known_iaps = notDiscoveredWLANConfigs.values(toIcdConfig(ptr)->network_id);
rescan_list:
if (!known_iaps.isEmpty()) {
for (int k=0; k<known_iaps.size(); ++k) {
SSIDInfo *iap = known_iaps.at(k);
if (iap->wlan_security ==
network_attrs_to_security(ap.scan.network_attrs)) {
/* Remove IAP from the list */
notDiscoveredWLANConfigs.remove(toIcdConfig(ptr)->network_id, iap);
#ifdef BEARER_MANAGEMENT_DEBUG
qDebug() << "Removed IAP" << iap->iap_id << "from unknown config";
#endif
known_iaps.removeAt(k);
delete iap;
goto rescan_list;
}
}
}
ptr->mutex.unlock();
}
} else {
/* Non saved access point data */
QByteArray scanned_ssid = ap.scan.network_id;
if (!accessPointConfigurations.contains(scanned_ssid)) {
IcdNetworkConfigurationPrivate *cpPriv = new IcdNetworkConfigurationPrivate;
QString hrs = scanned_ssid.data();
cpPriv->name = ap.network_name.isEmpty() ? hrs : ap.network_name;
cpPriv->isValid = true;
cpPriv->id = scanned_ssid.data(); // Note: id is now ssid, it should be set to IAP id if the IAP is saved
cpPriv->network_id = scanned_ssid;
cpPriv->iap_type = ap.scan.network_type;
cpPriv->bearerType = bearerTypeFromIapType(cpPriv->iap_type);
cpPriv->network_attrs = ap.scan.network_attrs;
cpPriv->service_id = ap.scan.service_id;
cpPriv->service_type = ap.scan.service_type;
cpPriv->service_attrs = ap.scan.service_attrs;
cpPriv->type = QNetworkConfiguration::InternetAccessPoint;
cpPriv->state = QNetworkConfiguration::Undefined;
#ifdef BEARER_MANAGEMENT_DEBUG
qDebug() << "IAP with network id" << cpPriv->id << "was found in the scan.";
#endif
QNetworkConfigurationPrivatePointer ptr(cpPriv);
accessPointConfigurations.insert(ptr->id, ptr);
mutex.unlock();
emit configurationAdded(ptr);
mutex.lock();
} else {
knownConfigs.removeOne(scanned_ssid);
}
}
}
}
if (!firstUpdate) {
// Update Defined status to all defined WLAN IAPs which
// could not be found when access points were scanned
QHashIterator<QByteArray, SSIDInfo* > i(notDiscoveredWLANConfigs);
while (i.hasNext()) {
i.next();
SSIDInfo *iap = i.value();
QString iap_id = iap->iap_id;
//qDebug() << i.key() << ": " << iap_id;
QNetworkConfigurationPrivatePointer ptr = accessPointConfigurations.value(iap_id);
if (ptr) {
QMutexLocker configLocker(&ptr->mutex);
// WLAN AccessPoint configuration could not be Discovered
// => Make sure that configuration state is Defined
if (ptr->state > QNetworkConfiguration::Defined) {
ptr->state = QNetworkConfiguration::Defined;
configLocker.unlock();
mutex.unlock();
emit configurationChanged(ptr);
mutex.lock();
}
}
}
/* Remove non existing iaps since last update */
foreach (const QString &oldIface, knownConfigs) {
QNetworkConfigurationPrivatePointer ptr = accessPointConfigurations.take(oldIface);
if (ptr) {
mutex.unlock();
emit configurationRemoved(ptr);
mutex.lock();
//if we would have SNAP support we would have to remove the references
//from existing ServiceNetworks to the removed access point configuration
}
}
}
QMutableHashIterator<QByteArray, SSIDInfo* > i(notDiscoveredWLANConfigs);
while (i.hasNext()) {
i.next();
SSIDInfo *iap = i.value();
delete iap;
i.remove();
}
if (!firstUpdate) {
mutex.unlock();
emit updateCompleted();
mutex.lock();
}
if (firstUpdate)
firstUpdate = false;
}
QNetworkConfigurationPrivatePointer QIcdEngine::defaultConfiguration()
{
QMutexLocker locker(&mutex);
if (!ensureDBusConnection())
return QNetworkConfigurationPrivatePointer();
// Here we just return [ANY] request to icd and let the icd decide which IAP to connect.
return userChoiceConfigurations.value(OSSO_IAP_ANY);
}
void QIcdEngine::startListeningStateSignalsForAllConnections()
{
// Start listening ICD_DBUS_API_STATE_SIG signals
m_dbusInterface->connection().connect(ICD_DBUS_API_INTERFACE,
ICD_DBUS_API_PATH,
ICD_DBUS_API_INTERFACE,
ICD_DBUS_API_STATE_SIG,
this, SLOT(connectionStateSignalsSlot(QDBusMessage)));
}
void QIcdEngine::getIcdInitialState()
{
/* Instead of requesting ICD status asynchronously, we ask it synchronously.
* It ensures that we always get right icd status BEFORE initialize() ends.
* If not, initialize() might end before we got icd status and
* QNetworkConfigurationManager::updateConfigurations()
* call from user might also end before receiving icd status.
* In such case, we come up to a bug:
* QNetworkConfigurationManagerPrivate::isOnline() will be false even
* if we are connected.
*/
Maemo::Icd icd;
QList<Maemo::IcdStateResult> state_results;
QNetworkConfigurationPrivatePointer ptr;
if (icd.state(state_results) && !state_results.isEmpty()) {
if (!(state_results.first().params.network_attrs == 0 &&
state_results.first().params.network_id.isEmpty())) {
switch (state_results.first().state) {
case ICD_STATE_CONNECTED:
m_onlineIapId = state_results.first().params.network_id;
ptr = accessPointConfigurations.value(m_onlineIapId);
if (ptr) {
QMutexLocker configLocker(&ptr->mutex);
ptr->state = QNetworkConfiguration::Active;
configLocker.unlock();
mutex.unlock();
emit configurationChanged(ptr);
mutex.lock();
}
break;
default:
break;
}
}
}
}
void QIcdEngine::connectionStateSignalsSlot(QDBusMessage msg)
{
QMutexLocker locker(&mutex);
QList<QVariant> arguments = msg.arguments();
if (arguments[1].toUInt() != 0 || arguments.count() < 8) {
return;
}
QString iapid = arguments[5].toByteArray().data();
uint icd_connection_state = arguments[7].toUInt();
switch (icd_connection_state) {
case ICD_STATE_CONNECTED:
{
QNetworkConfigurationPrivatePointer ptr = accessPointConfigurations.value(iapid);
if (ptr) {
QMutexLocker configLocker(&ptr->mutex);
ptr->type = QNetworkConfiguration::InternetAccessPoint;
if (ptr->state != QNetworkConfiguration::Active) {
ptr->state = QNetworkConfiguration::Active;
configLocker.unlock();
locker.unlock();
emit configurationChanged(ptr);
locker.relock();
m_onlineIapId = iapid;
}
} else {
// This gets called when new WLAN IAP is created using Connection dialog
// At this point Undefined WLAN configuration has SSID as iap id
// => Because of that configuration can not be found from
// accessPointConfigurations using correct iap id
m_onlineIapId = iapid;
}
break;
}
case ICD_STATE_DISCONNECTED:
{
QNetworkConfigurationPrivatePointer ptr = accessPointConfigurations.value(iapid);
if (ptr) {
QMutexLocker configLocker(&ptr->mutex);
ptr->type = QNetworkConfiguration::InternetAccessPoint;
if (ptr->state == QNetworkConfiguration::Active) {
ptr->state = QNetworkConfiguration::Discovered;
configLocker.unlock();
locker.unlock();
emit iapStateChanged(iapid, icd_connection_state);
emit configurationChanged(ptr);
locker.relock();
// Note: If ICD switches used IAP from one to another:
// 1) new IAP is reported to be online first
// 2) old IAP is reported to be offline then
// => Device can be reported to be offline only
// if last known online IAP is reported to be disconnected
if (iapid == m_onlineIapId) {
// It's known that there is only one global ICD connection
// => Because ICD state was reported to be DISCONNECTED, Device is offline
m_onlineIapId.clear();
}
}
} else {
// Disconnected IAP was not found from accessPointConfigurations
// => Reason: Online IAP was removed which resulted ICD to disconnect
if (iapid == m_onlineIapId) {
// It's known that there is only one global ICD connection
// => Because ICD state was reported to be DISCONNECTED, Device is offline
m_onlineIapId.clear();
}
}
break;
}
default:
break;
}
locker.unlock();
emit iapStateChanged(iapid, icd_connection_state);
locker.relock();
}
void QIcdEngine::icdServiceOwnerChanged(const QString &serviceName, const QString &oldOwner,
const QString &newOwner)
{
Q_UNUSED(serviceName);
Q_UNUSED(oldOwner);
QMutexLocker locker(&mutex);
if (newOwner.isEmpty()) {
// Disconnected from ICD, remove all configurations
cleanup();
delete iapMonitor;
iapMonitor = 0;
delete m_dbusInterface;
m_dbusInterface = 0;
QMutableHashIterator<QString, QNetworkConfigurationPrivatePointer> i(accessPointConfigurations);
while (i.hasNext()) {
i.next();
QNetworkConfigurationPrivatePointer ptr = i.value();
i.remove();
locker.unlock();
emit configurationRemoved(ptr);
locker.relock();
}
userChoiceConfigurations.clear();
} else {
// Connected to ICD ensure connection.
ensureDBusConnection();
}
}
void QIcdEngine::requestUpdate()
{
QMutexLocker locker(&mutex);
if (!ensureDBusConnection()) {
locker.unlock();
emit updateCompleted();
locker.relock();
return;
}
if (m_scanGoingOn)
return;
m_scanGoingOn = true;
m_dbusInterface->connection().connect(ICD_DBUS_API_INTERFACE,
ICD_DBUS_API_PATH,
ICD_DBUS_API_INTERFACE,
ICD_DBUS_API_SCAN_SIG,
this, SLOT(asyncUpdateConfigurationsSlot(QDBusMessage)));
QDBusMessage msg = m_dbusInterface->call(ICD_DBUS_API_SCAN_REQ,
(uint)ICD_SCAN_REQUEST_ACTIVE);
m_typesToBeScanned = msg.arguments()[0].value<QStringList>();
m_scanTimer.start(ICD_SHORT_SCAN_TIMEOUT);
}
void QIcdEngine::cancelAsyncConfigurationUpdate()
{
if (!ensureDBusConnection())
return;
if (!m_scanGoingOn)
return;
m_scanGoingOn = false;
if (m_scanTimer.isActive())
m_scanTimer.stop();
m_dbusInterface->connection().disconnect(ICD_DBUS_API_INTERFACE,
ICD_DBUS_API_PATH,
ICD_DBUS_API_INTERFACE,
ICD_DBUS_API_SCAN_SIG,
this, SLOT(asyncUpdateConfigurationsSlot(QDBusMessage)));
// Stop scanning rounds by calling ICD_DBUS_API_SCAN_CANCEL
// <=> If ICD_DBUS_API_SCAN_CANCEL is not called, new scanning round will
// be started after the module scan timeout.
m_dbusInterface->call(ICD_DBUS_API_SCAN_CANCEL);
}
void QIcdEngine::finishAsyncConfigurationUpdate()
{
QMutexLocker locker(&mutex);
cancelAsyncConfigurationUpdate();
doRequestUpdate(m_scanResult);
m_scanResult.clear();
}
void QIcdEngine::asyncUpdateConfigurationsSlot(QDBusMessage msg)
{
QMutexLocker locker(&mutex);
QList<QVariant> arguments = msg.arguments();
uint icd_scan_status = arguments.takeFirst().toUInt();
if (icd_scan_status == ICD_SCAN_COMPLETE) {
m_typesToBeScanned.removeOne(arguments[6].toString());
if (!m_typesToBeScanned.count()) {
locker.unlock();
finishAsyncConfigurationUpdate();
locker.relock();
}
} else {
Maemo::IcdScanResult scanResult;
scanResult.status = icd_scan_status;
scanResult.timestamp = arguments.takeFirst().toUInt();
scanResult.scan.service_type = arguments.takeFirst().toString();
scanResult.service_name = arguments.takeFirst().toString();
scanResult.scan.service_attrs = arguments.takeFirst().toUInt();
scanResult.scan.service_id = arguments.takeFirst().toString();
scanResult.service_priority = arguments.takeFirst().toInt();
scanResult.scan.network_type = arguments.takeFirst().toString();
scanResult.network_name = arguments.takeFirst().toString();
scanResult.scan.network_attrs = arguments.takeFirst().toUInt();
scanResult.scan.network_id = arguments.takeFirst().toByteArray();
scanResult.network_priority = arguments.takeFirst().toInt();
scanResult.signal_strength = arguments.takeFirst().toInt();
scanResult.station_id = arguments.takeFirst().toString();
scanResult.signal_dB = arguments.takeFirst().toInt();
m_scanResult.append(scanResult);
}
}
void QIcdEngine::cleanup()
{
if (m_scanGoingOn) {
m_scanTimer.stop();
m_dbusInterface->call(ICD_DBUS_API_SCAN_CANCEL);
}
if (iapMonitor)
iapMonitor->cleanup();
}
bool QIcdEngine::hasIdentifier(const QString &id)
{
QMutexLocker locker(&mutex);
return accessPointConfigurations.contains(id) ||
snapConfigurations.contains(id) ||
userChoiceConfigurations.contains(id);
}
QNetworkSessionPrivate *QIcdEngine::createSessionBackend()
{
return new QNetworkSessionPrivateImpl(this);
}
#include "qicdengine.moc"
QT_END_NAMESPACE
#endif // QT_NO_BEARERMANAGEMENT
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