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1 /**************************************************************************** |
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2 ** |
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3 ** Copyright (C) 2010 Nokia Corporation and/or its subsidiary(-ies). |
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4 ** All rights reserved. |
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5 ** Contact: Nokia Corporation (qt-info@nokia.com) |
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6 ** |
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7 ** This file is part of the Qt Mobility Components. |
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8 ** |
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9 ** $QT_BEGIN_LICENSE:LGPL$ |
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10 ** No Commercial Usage |
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11 ** This file contains pre-release code and may not be distributed. |
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12 ** You may use this file in accordance with the terms and conditions |
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13 ** contained in the Technology Preview License Agreement accompanying |
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14 ** this package. |
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15 ** |
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16 ** GNU Lesser General Public License Usage |
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17 ** Alternatively, this file may be used under the terms of the GNU Lesser |
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18 ** General Public License version 2.1 as published by the Free Software |
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19 ** Foundation and appearing in the file LICENSE.LGPL included in the |
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20 ** packaging of this file. Please review the following information to |
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21 ** ensure the GNU Lesser General Public License version 2.1 requirements |
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22 ** will be met: http://www.gnu.org/licenses/old-licenses/lgpl-2.1.html. |
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23 ** |
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24 ** In addition, as a special exception, Nokia gives you certain additional |
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25 ** rights. These rights are described in the Nokia Qt LGPL Exception |
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26 ** version 1.1, included in the file LGPL_EXCEPTION.txt in this package. |
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27 ** |
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28 ** If you have questions regarding the use of this file, please contact |
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29 ** Nokia at qt-info@nokia.com. |
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30 ** |
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31 ** |
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32 ** |
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33 ** |
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34 ** |
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35 ** |
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36 ** |
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37 ** |
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38 ** $QT_END_LICENSE$ |
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39 ** |
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40 ****************************************************************************/ |
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41 |
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42 #include <string.h> |
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43 |
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44 #include "qnetworkconfigmanager_maemo_p.h" |
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45 |
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46 #include <QDebug> |
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47 #include <QHash> |
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48 |
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49 #include <wlancond.h> |
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50 #include <libicd-network-wlan-dev.h> |
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51 #include <maemo_icd.h> |
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52 #include <iapconf.h> |
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53 #include <iapmonitor.h> |
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54 |
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55 QTM_BEGIN_NAMESPACE |
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56 |
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57 /* The IapAddTimer is a helper class that makes sure we update |
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58 * the configuration only after all db additions to certain |
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59 * iap are finished (after a certain timeout) |
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60 */ |
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61 class _IapAddTimer : public QObject |
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62 { |
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63 Q_OBJECT |
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64 |
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65 public: |
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66 _IapAddTimer() {} |
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67 ~_IapAddTimer() |
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68 { |
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69 if (timer.isActive()) { |
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70 QObject::disconnect(&timer, SIGNAL(timeout()), this, SLOT(timeout())); |
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71 timer.stop(); |
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72 } |
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73 } |
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74 |
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75 void add(QString& iap_id, QNetworkConfigurationManagerPrivate *d); |
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76 |
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77 QString iap_id; |
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78 QTimer timer; |
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79 QNetworkConfigurationManagerPrivate *d; |
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80 |
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81 public Q_SLOTS: |
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82 void timeout(); |
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83 }; |
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84 |
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85 |
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86 void _IapAddTimer::add(QString& id, QNetworkConfigurationManagerPrivate *d_ptr) |
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87 { |
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88 iap_id = id; |
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89 d = d_ptr; |
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90 |
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91 if (timer.isActive()) { |
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92 QObject::disconnect(&timer, SIGNAL(timeout()), this, SLOT(timeout())); |
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93 timer.stop(); |
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94 } |
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95 timer.setSingleShot(true); |
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96 QObject::connect(&timer, SIGNAL(timeout()), this, SLOT(timeout())); |
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97 timer.start(1500); |
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98 } |
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99 |
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100 |
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101 void _IapAddTimer::timeout() |
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102 { |
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103 d->addConfiguration(iap_id); |
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104 } |
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105 |
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106 |
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107 class IapAddTimer { |
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108 QHash<QString, _IapAddTimer* > timers; |
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109 |
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110 public: |
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111 IapAddTimer() {} |
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112 ~IapAddTimer() {} |
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113 |
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114 void add(QString& iap_id, QNetworkConfigurationManagerPrivate *d); |
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115 void del(QString& iap_id); |
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116 void removeAll(); |
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117 }; |
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118 |
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119 |
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120 void IapAddTimer::removeAll() |
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121 { |
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122 QHashIterator<QString, _IapAddTimer* > i(timers); |
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123 while (i.hasNext()) { |
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124 i.next(); |
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125 _IapAddTimer *t = i.value(); |
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126 delete t; |
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127 } |
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128 timers.clear(); |
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129 } |
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130 |
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131 |
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132 void IapAddTimer::add(QString& iap_id, QNetworkConfigurationManagerPrivate *d) |
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133 { |
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134 if (timers.contains(iap_id)) { |
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135 _IapAddTimer *iap = timers.value(iap_id); |
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136 iap->add(iap_id, d); |
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137 } else { |
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138 _IapAddTimer *iap = new _IapAddTimer; |
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139 iap->add(iap_id, d); |
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140 timers.insert(iap_id, iap); |
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141 } |
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142 } |
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143 |
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144 void IapAddTimer::del(QString& iap_id) |
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145 { |
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146 if (timers.contains(iap_id)) { |
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147 _IapAddTimer *iap = timers.take(iap_id); |
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148 delete iap; |
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149 } |
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150 } |
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151 |
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152 |
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153 class IapMonitor : public Maemo::IAPMonitor |
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154 { |
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155 public: |
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156 IapMonitor() : first_call(true) { } |
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157 |
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158 void setup(QNetworkConfigurationManagerPrivate *d); |
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159 void cleanup(); |
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160 |
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161 protected: |
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162 void iapAdded(const QString &iapId); |
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163 void iapRemoved(const QString &iapId); |
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164 |
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165 private: |
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166 bool first_call; |
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167 |
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168 QNetworkConfigurationManagerPrivate *d; |
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169 IapAddTimer timers; |
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170 }; |
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171 |
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172 Q_GLOBAL_STATIC(IapMonitor, iapMonitor); |
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173 |
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174 |
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175 void IapMonitor::setup(QNetworkConfigurationManagerPrivate *d_ptr) |
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176 { |
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177 if (first_call) { |
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178 d = d_ptr; |
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179 first_call = false; |
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180 } |
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181 } |
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182 |
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183 |
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184 void IapMonitor::cleanup() |
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185 { |
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186 if (!first_call) { |
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187 timers.removeAll(); |
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188 first_call = true; |
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189 } |
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190 } |
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191 |
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192 |
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193 void IapMonitor::iapAdded(const QString &iap_id) |
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194 { |
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195 /* We cannot know when the IAP is fully added to db, so a timer is |
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196 * installed instead. When the timer expires we hope that IAP is added ok. |
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197 */ |
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198 QString id = iap_id; |
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199 timers.add(id, d); |
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200 } |
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201 |
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202 |
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203 void IapMonitor::iapRemoved(const QString &iap_id) |
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204 { |
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205 QString id = iap_id; |
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206 d->deleteConfiguration(id); |
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207 } |
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208 |
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209 void QNetworkConfigurationManagerPrivate::registerPlatformCapabilities() |
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210 { |
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211 capFlags |= QNetworkConfigurationManager::CanStartAndStopInterfaces; |
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212 capFlags |= QNetworkConfigurationManager::DataStatistics; |
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213 capFlags |= QNetworkConfigurationManager::ForcedRoaming; |
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214 capFlags |= QNetworkConfigurationManager::NetworkSessionRequired; |
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215 } |
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216 |
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217 void QNetworkConfigurationManagerPrivate::init() |
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218 { |
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219 // Setup DBus Interface for ICD |
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220 m_dbusInterface = new QDBusInterface(ICD_DBUS_API_INTERFACE, |
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221 ICD_DBUS_API_PATH, |
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222 ICD_DBUS_API_INTERFACE, |
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223 QDBusConnection::systemBus(), |
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224 this); |
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225 connect(&m_scanTimer, SIGNAL(timeout()), this, SLOT(finishAsyncConfigurationUpdate())); |
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226 m_scanTimer.setSingleShot(true); |
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227 |
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228 /* Turn on IAP state monitoring */ |
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229 startListeningStateSignalsForAllConnections(); |
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230 |
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231 /* Turn on IAP add/remove monitoring */ |
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232 iapMonitor()->setup(this); |
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233 |
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234 /* We create a default configuration which is a pseudo config */ |
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235 QNetworkConfigurationPrivate* cpPriv = new QNetworkConfigurationPrivate(); |
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236 cpPriv->name = "UserChoice"; |
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237 cpPriv->state = QNetworkConfiguration::Discovered; |
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238 cpPriv->isValid = true; |
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239 cpPriv->id = OSSO_IAP_ANY; |
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240 cpPriv->type = QNetworkConfiguration::UserChoice; |
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241 cpPriv->purpose = QNetworkConfiguration::UnknownPurpose; |
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242 cpPriv->roamingSupported = false; |
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243 cpPriv->manager = this; |
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244 QExplicitlySharedDataPointer<QNetworkConfigurationPrivate> ptr(cpPriv); |
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245 userChoiceConfigurations.insert(cpPriv->id, ptr); |
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246 } |
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247 |
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248 static inline QString network_attrs_to_security(uint network_attrs) |
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249 { |
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250 uint cap = 0; |
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251 nwattr2cap(network_attrs, &cap); /* from libicd-network-wlan-dev.h */ |
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252 if (cap & WLANCOND_OPEN) |
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253 return "NONE"; |
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254 else if (cap & WLANCOND_WEP) |
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255 return "WEP"; |
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256 else if (cap & WLANCOND_WPA_PSK) |
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257 return "WPA_PSK"; |
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258 else if (cap & WLANCOND_WPA_EAP) |
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259 return "WPA_EAP"; |
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260 return ""; |
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261 } |
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262 |
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263 |
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264 struct SSIDInfo { |
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265 QString iap_id; |
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266 QString wlan_security; |
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267 }; |
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268 |
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269 |
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270 void QNetworkConfigurationManagerPrivate::configurationChanged(QNetworkConfigurationPrivate *ptr) |
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271 { |
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272 QNetworkConfiguration item; |
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273 item.d = ptr; |
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274 emit configurationChanged(item); |
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275 } |
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276 |
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277 void QNetworkConfigurationManagerPrivate::deleteConfiguration(QString& iap_id) |
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278 { |
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279 /* Called when IAPs are deleted in db, in this case we do not scan |
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280 * or read all the IAPs from db because it might take too much power |
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281 * (multiple applications would need to scan and read all IAPs from db) |
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282 */ |
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283 if (accessPointConfigurations.contains(iap_id)) { |
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284 QExplicitlySharedDataPointer<QNetworkConfigurationPrivate> priv = accessPointConfigurations.take(iap_id); |
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285 if (priv.data()) { |
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286 priv->isValid = false; |
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287 #ifdef BEARER_MANAGEMENT_DEBUG |
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288 qDebug() << "IAP" << iap_id << "was removed from storage."; |
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289 #endif |
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290 |
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291 QNetworkConfiguration item; |
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292 item.d = priv; |
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293 emit configurationRemoved(item); |
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294 } else |
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295 qWarning("Configuration not found for IAP %s", iap_id.toAscii().data()); |
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296 } else { |
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297 #ifdef BEARER_MANAGEMENT_DEBUG |
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298 qDebug("IAP: %s, already missing from the known list", iap_id.toAscii().data()); |
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299 #endif |
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300 } |
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301 } |
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302 |
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303 |
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304 uint32_t QNetworkConfigurationManagerPrivate::getNetworkAttrs(bool is_iap_id, |
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305 const QString& iap_id, |
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306 const QString& iap_type, |
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307 QString security_method) |
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308 { |
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309 guint network_attr = 0; |
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310 dbus_uint32_t cap = 0; |
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311 |
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312 if (iap_type == "WLAN_INFRA") |
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313 cap |= WLANCOND_INFRA; |
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314 else if (iap_type == "WLAN_ADHOC") |
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315 cap |= WLANCOND_ADHOC; |
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316 |
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317 if (security_method.isEmpty() && (cap & (WLANCOND_INFRA | WLANCOND_ADHOC))) { |
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318 Maemo::IAPConf saved_ap(iap_id); |
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319 security_method = saved_ap.value("wlan_security").toString(); |
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320 } |
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321 |
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322 if (!security_method.isEmpty()) { |
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323 if (security_method == "WEP") |
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324 cap |= WLANCOND_WEP; |
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325 else if (security_method == "WPA_PSK") |
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326 cap |= WLANCOND_WPA_PSK; |
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327 else if (security_method == "WPA_EAP") |
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328 cap |= WLANCOND_WPA_EAP; |
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329 else if (security_method == "NONE") |
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330 cap |= WLANCOND_OPEN; |
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331 |
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332 if (cap & (WLANCOND_WPA_PSK | WLANCOND_WPA_EAP)) { |
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333 Maemo::IAPConf saved_iap(iap_id); |
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334 bool wpa2_only = saved_iap.value("EAP_wpa2_only_mode").toBool(); |
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335 if (wpa2_only) { |
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336 cap |= WLANCOND_WPA2; |
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337 } |
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338 } |
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339 } |
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340 |
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341 cap2nwattr(cap, &network_attr); |
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342 if (is_iap_id) |
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343 network_attr |= ICD_NW_ATTR_IAPNAME; |
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344 |
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345 return (uint32_t)network_attr; |
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346 } |
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347 |
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348 |
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349 void QNetworkConfigurationManagerPrivate::addConfiguration(QString& iap_id) |
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350 { |
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351 // Note: When new IAP is created, this function gets called multiple times |
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352 // in a row. |
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353 // For example: Empty type & name for WLAN was stored into newly |
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354 // created IAP data in gconf when this function gets |
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355 // called for the first time. |
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356 // WLAN type & name are updated into IAP data in gconf |
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357 // as soon as WLAN connection is up and running. |
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358 // => And this function gets called again. |
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359 |
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360 if (!accessPointConfigurations.contains(iap_id)) { |
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361 Maemo::IAPConf saved_iap(iap_id); |
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362 QString iap_type = saved_iap.value("type").toString(); |
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363 QString iap_name = saved_iap.value("name").toString(); |
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364 QByteArray ssid = saved_iap.value("wlan_ssid").toByteArray(); |
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365 if (!iap_type.isEmpty() && !iap_name.isEmpty()) { |
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366 // Check if new IAP is actually Undefined WLAN configuration |
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367 // Note: SSID is used as an iap id for Undefined WLAN configurations |
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368 // => configuration must be searched using SSID |
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369 if (!ssid.isEmpty() && accessPointConfigurations.contains(ssid)) { |
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370 QExplicitlySharedDataPointer<QNetworkConfigurationPrivate> ptr = accessPointConfigurations.take(ssid); |
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371 if (ptr.data()) { |
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372 ptr->id = iap_id; |
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373 ptr->iap_type = iap_type; |
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374 ptr->network_attrs = getNetworkAttrs(true, iap_id, iap_type, QString()); |
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375 ptr->network_id = ssid; |
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376 ptr->service_id = saved_iap.value("service_id").toString(); |
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377 ptr->service_type = saved_iap.value("service_type").toString(); |
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378 if (m_onlineIapId == iap_id) { |
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379 ptr->state = QNetworkConfiguration::Active; |
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380 } else { |
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381 ptr->state = QNetworkConfiguration::Defined; |
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382 } |
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383 accessPointConfigurations.insert(iap_id, ptr); |
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384 configurationChanged(ptr.data()); |
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385 } |
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386 } else { |
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387 QNetworkConfigurationPrivate* cpPriv = new QNetworkConfigurationPrivate(); |
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388 cpPriv->name = saved_iap.value("name").toString(); |
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389 if (cpPriv->name.isEmpty()) |
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390 cpPriv->name = iap_id; |
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391 cpPriv->isValid = true; |
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392 cpPriv->id = iap_id; |
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393 cpPriv->iap_type = iap_type; |
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394 cpPriv->network_attrs = getNetworkAttrs(true, iap_id, iap_type, QString()); |
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395 cpPriv->service_id = saved_iap.value("service_id").toString(); |
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396 cpPriv->service_type = saved_iap.value("service_type").toString(); |
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397 if (iap_type.startsWith(QLatin1String("WLAN"))) { |
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398 QByteArray ssid = saved_iap.value("wlan_ssid").toByteArray(); |
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399 if (ssid.isEmpty()) { |
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400 qWarning() << "Cannot get ssid for" << iap_id; |
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401 } |
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402 cpPriv->network_id = ssid; |
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403 } |
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404 cpPriv->type = QNetworkConfiguration::InternetAccessPoint; |
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405 if (m_onlineIapId == iap_id) { |
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406 cpPriv->state = QNetworkConfiguration::Active; |
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407 } else { |
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408 cpPriv->state = QNetworkConfiguration::Defined; |
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409 } |
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410 cpPriv->manager = this; |
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411 |
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412 QExplicitlySharedDataPointer<QNetworkConfigurationPrivate> ptr(cpPriv); |
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413 accessPointConfigurations.insert(iap_id, ptr); |
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414 |
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415 #ifdef BEARER_MANAGEMENT_DEBUG |
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416 qDebug("IAP: %s, name: %s, added to known list", iap_id.toAscii().data(), cpPriv->name.toAscii().data()); |
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417 #endif |
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418 QNetworkConfiguration item; |
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419 item.d = ptr; |
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420 emit configurationAdded(item); |
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421 } |
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422 } else { |
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423 qWarning("IAP %s does not have \"type\" or \"name\" fields defined, skipping this IAP.", iap_id.toAscii().data()); |
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424 } |
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425 } else { |
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426 #ifdef BEARER_MANAGEMENT_DEBUG |
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427 qDebug() << "IAP" << iap_id << "already in db."; |
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428 #endif |
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429 |
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430 /* Check if the data in db changed and update configuration accordingly |
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431 */ |
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432 QExplicitlySharedDataPointer<QNetworkConfigurationPrivate> ptr = accessPointConfigurations.value(iap_id); |
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433 if (ptr.data()) { |
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434 Maemo::IAPConf changed_iap(iap_id); |
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435 QString iap_type = changed_iap.value("type").toString(); |
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436 bool update_needed = false; /* if IAP type or ssid changed, we need to change the state */ |
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437 |
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438 ptr->network_attrs = getNetworkAttrs(true, iap_id, iap_type, QString()); |
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439 ptr->service_id = changed_iap.value("service_id").toString(); |
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440 ptr->service_type = changed_iap.value("service_type").toString(); |
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441 |
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442 if (!iap_type.isEmpty()) { |
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443 ptr->name = changed_iap.value("name").toString(); |
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444 if (ptr->name.isEmpty()) |
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445 ptr->name = iap_id; |
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446 ptr->isValid = true; |
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447 if (ptr->iap_type != iap_type) { |
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448 ptr->iap_type = iap_type; |
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449 update_needed = true; |
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450 } |
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451 if (iap_type.startsWith(QLatin1String("WLAN"))) { |
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452 QByteArray ssid = changed_iap.value("wlan_ssid").toByteArray(); |
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453 if (ssid.isEmpty()) { |
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454 qWarning() << "Cannot get ssid for" << iap_id; |
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455 } |
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456 if (ptr->network_id != ssid) { |
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457 ptr->network_id = ssid; |
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458 update_needed = true; |
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459 } |
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460 } |
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461 } |
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462 if (update_needed) { |
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463 ptr->type = QNetworkConfiguration::InternetAccessPoint; |
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464 if (m_onlineIapId == iap_id) { |
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465 if (ptr->state < QNetworkConfiguration::Active) { |
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466 ptr->state = QNetworkConfiguration::Active; |
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467 configurationChanged(ptr.data()); |
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468 } |
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469 } else if (ptr->state < QNetworkConfiguration::Defined) { |
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470 ptr->state = QNetworkConfiguration::Defined; |
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471 configurationChanged(ptr.data()); |
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472 } |
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473 } |
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474 } else { |
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475 qWarning("Cannot find IAP %s from current configuration although it should be there.", iap_id.toAscii().data()); |
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476 } |
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477 } |
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478 } |
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479 |
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480 void QNetworkConfigurationManagerPrivate::updateConfigurations() |
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481 { |
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482 doUpdateConfigurations(); |
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483 } |
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484 |
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485 void QNetworkConfigurationManagerPrivate::doUpdateConfigurations(QList<Maemo::IcdScanResult> scanned) |
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486 { |
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487 /* Contains all known iap_ids from storage */ |
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488 QList<QString> knownConfigs = accessPointConfigurations.keys(); |
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489 |
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490 /* Contains all known WLAN network ids (like ssid) from storage */ |
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491 QMultiHash<QByteArray, SSIDInfo* > notDiscoveredWLANConfigs; |
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492 |
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493 QList<QString> all_iaps; |
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494 Maemo::IAPConf::getAll(all_iaps); |
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495 |
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496 foreach (const QString &iap_id, all_iaps) { |
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497 QByteArray ssid; |
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498 |
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499 Maemo::IAPConf saved_ap(iap_id); |
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500 bool is_temporary = saved_ap.value("temporary").toBool(); |
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501 if (is_temporary) { |
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502 #ifdef BEARER_MANAGEMENT_DEBUG |
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503 qDebug() << "IAP" << iap_id << "is temporary, skipping it."; |
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504 #endif |
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505 continue; |
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506 } |
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507 |
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508 QString iap_type = saved_ap.value("type").toString(); |
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509 if (iap_type.startsWith(QLatin1String("WLAN"))) { |
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510 ssid = saved_ap.value("wlan_ssid").toByteArray(); |
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511 if (ssid.isEmpty()) { |
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512 qWarning() << "Cannot get ssid for" << iap_id; |
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513 continue; |
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514 } |
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515 |
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516 QString security_method = saved_ap.value("wlan_security").toString(); |
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517 SSIDInfo *info = new SSIDInfo; |
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518 info->iap_id = iap_id; |
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519 info->wlan_security = security_method; |
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520 notDiscoveredWLANConfigs.insert(ssid, info); |
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521 } else if (iap_type.isEmpty()) { |
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522 qWarning() << "IAP" << iap_id << "network type is not set! Skipping it"; |
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523 continue; |
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524 } else { |
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525 #ifdef BEARER_MANAGEMENT_DEBUG |
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526 qDebug() << "IAP" << iap_id << "network type is" << iap_type; |
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527 #endif |
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528 ssid.clear(); |
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529 } |
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530 |
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531 if (!accessPointConfigurations.contains(iap_id)) { |
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532 QNetworkConfigurationPrivate* cpPriv = new QNetworkConfigurationPrivate(); |
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533 cpPriv->name = saved_ap.value("name").toString(); |
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534 if (cpPriv->name.isEmpty()) { |
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535 if (!ssid.isEmpty() && ssid.size() > 0) |
|
536 cpPriv->name = ssid.data(); |
|
537 else |
|
538 cpPriv->name = iap_id; |
|
539 } |
|
540 cpPriv->isValid = true; |
|
541 cpPriv->id = iap_id; |
|
542 cpPriv->network_id = ssid; |
|
543 cpPriv->network_attrs = getNetworkAttrs(true, iap_id, iap_type, QString()); |
|
544 cpPriv->iap_type = iap_type; |
|
545 cpPriv->service_id = saved_ap.value("service_id").toString(); |
|
546 cpPriv->service_type = saved_ap.value("service_type").toString(); |
|
547 cpPriv->type = QNetworkConfiguration::InternetAccessPoint; |
|
548 cpPriv->state = QNetworkConfiguration::Defined; |
|
549 cpPriv->manager = this; |
|
550 |
|
551 QExplicitlySharedDataPointer<QNetworkConfigurationPrivate> ptr(cpPriv); |
|
552 accessPointConfigurations.insert(iap_id, ptr); |
|
553 |
|
554 #ifdef BEARER_MANAGEMENT_DEBUG |
|
555 qDebug("IAP: %s, name: %s, ssid: %s, added to known list", iap_id.toAscii().data(), cpPriv->name.toAscii().data(), !ssid.isEmpty() ? ssid.data() : "-"); |
|
556 #endif |
|
557 } else { |
|
558 knownConfigs.removeOne(iap_id); |
|
559 #ifdef BEARER_MANAGEMENT_DEBUG |
|
560 qDebug("IAP: %s, ssid: %s, already exists in the known list", iap_id.toAscii().data(), !ssid.isEmpty() ? ssid.data() : "-"); |
|
561 #endif |
|
562 } |
|
563 } |
|
564 |
|
565 /* This is skipped in the first update as scanned size is zero */ |
|
566 if (!scanned.isEmpty()) |
|
567 for (int i=0; i<scanned.size(); ++i) { |
|
568 const Maemo::IcdScanResult ap = scanned.at(i); |
|
569 |
|
570 if (ap.scan.network_attrs & ICD_NW_ATTR_IAPNAME) { |
|
571 /* The network_id is IAP id, so the IAP is a known one */ |
|
572 QString iapid = ap.scan.network_id.data(); |
|
573 QExplicitlySharedDataPointer<QNetworkConfigurationPrivate> priv = accessPointConfigurations.value(iapid); |
|
574 if (priv.data()) { |
|
575 bool stateChanged = false; |
|
576 // Check if state is not already Discovered or Active |
|
577 if (priv->state < QNetworkConfiguration::Discovered) { |
|
578 priv->state = QNetworkConfiguration::Discovered; /* Defined is set automagically */ |
|
579 stateChanged = true; |
|
580 } |
|
581 priv->network_attrs = ap.scan.network_attrs; |
|
582 priv->service_id = ap.scan.service_id; |
|
583 priv->service_type = ap.scan.service_type; |
|
584 priv->service_attrs = ap.scan.service_attrs; |
|
585 |
|
586 if (stateChanged) { |
|
587 configurationChanged(priv.data()); |
|
588 } |
|
589 #ifdef BEARER_MANAGEMENT_DEBUG |
|
590 qDebug("IAP: %s, ssid: %s, discovered", iapid.toAscii().data(), priv->network_id.data()); |
|
591 #endif |
|
592 |
|
593 if (!ap.scan.network_type.startsWith(QLatin1String("WLAN"))) |
|
594 continue; // not a wlan AP |
|
595 |
|
596 /* Remove scanned AP from discovered WLAN configurations so that we can |
|
597 * emit configurationRemoved signal later |
|
598 */ |
|
599 QList<SSIDInfo* > known_iaps = notDiscoveredWLANConfigs.values(priv->network_id); |
|
600 rescan_list: |
|
601 if (!known_iaps.isEmpty()) { |
|
602 for (int k=0; k<known_iaps.size(); ++k) { |
|
603 SSIDInfo *iap = known_iaps.at(k); |
|
604 |
|
605 #ifdef BEARER_MANAGEMENT_DEBUG |
|
606 //qDebug() << "iap" << iap->iap_id << "security" << iap->wlan_security << "scan" << network_attrs_to_security(ap.scan.network_attrs); |
|
607 #endif |
|
608 |
|
609 if (iap->wlan_security == |
|
610 network_attrs_to_security(ap.scan.network_attrs)) { |
|
611 /* Remove IAP from the list */ |
|
612 notDiscoveredWLANConfigs.remove(priv->network_id, iap); |
|
613 #ifdef BEARER_MANAGEMENT_DEBUG |
|
614 qDebug() << "Removed IAP" << iap->iap_id << "from unknown config"; |
|
615 #endif |
|
616 known_iaps.removeAt(k); |
|
617 delete iap; |
|
618 goto rescan_list; |
|
619 } |
|
620 } |
|
621 } |
|
622 } else { |
|
623 qWarning() << "IAP" << iapid << "is missing in configuration."; |
|
624 } |
|
625 |
|
626 } else { |
|
627 /* Non saved access point data */ |
|
628 QByteArray scanned_ssid = ap.scan.network_id; |
|
629 if (!accessPointConfigurations.contains(scanned_ssid)) { |
|
630 QNetworkConfigurationPrivate* cpPriv = new QNetworkConfigurationPrivate(); |
|
631 QString hrs = scanned_ssid.data(); |
|
632 |
|
633 cpPriv->name = ap.network_name.isEmpty() ? hrs : ap.network_name; |
|
634 cpPriv->isValid = true; |
|
635 cpPriv->id = scanned_ssid.data(); // Note: id is now ssid, it should be set to IAP id if the IAP is saved |
|
636 cpPriv->network_id = scanned_ssid; |
|
637 cpPriv->iap_type = ap.scan.network_type; |
|
638 cpPriv->network_attrs = ap.scan.network_attrs; |
|
639 cpPriv->service_id = ap.scan.service_id; |
|
640 cpPriv->service_type = ap.scan.service_type; |
|
641 cpPriv->service_attrs = ap.scan.service_attrs; |
|
642 cpPriv->manager = this; |
|
643 |
|
644 cpPriv->type = QNetworkConfiguration::InternetAccessPoint; |
|
645 cpPriv->state = QNetworkConfiguration::Undefined; |
|
646 |
|
647 QExplicitlySharedDataPointer<QNetworkConfigurationPrivate> ptr(cpPriv); |
|
648 accessPointConfigurations.insert(cpPriv->id, ptr); |
|
649 |
|
650 #ifdef BEARER_MANAGEMENT_DEBUG |
|
651 qDebug() << "IAP with network id" << cpPriv->id << "was found in the scan."; |
|
652 #endif |
|
653 |
|
654 QNetworkConfiguration item; |
|
655 item.d = ptr; |
|
656 emit configurationAdded(item); |
|
657 } else { |
|
658 knownConfigs.removeOne(scanned_ssid); |
|
659 } |
|
660 } |
|
661 } |
|
662 |
|
663 if (!firstUpdate) { |
|
664 // Update Defined status to all defined WLAN IAPs which |
|
665 // could not be found when access points were scanned |
|
666 QHashIterator<QByteArray, SSIDInfo* > i(notDiscoveredWLANConfigs); |
|
667 while (i.hasNext()) { |
|
668 i.next(); |
|
669 SSIDInfo *iap = i.value(); |
|
670 QString iap_id = iap->iap_id; |
|
671 //qDebug() << i.key() << ": " << iap_id; |
|
672 |
|
673 QExplicitlySharedDataPointer<QNetworkConfigurationPrivate> priv = accessPointConfigurations.value(iap_id); |
|
674 if (priv.data()) { |
|
675 // WLAN AccessPoint configuration could not be Discovered |
|
676 // => Make sure that configuration state is Defined |
|
677 if (priv->state > QNetworkConfiguration::Defined) { |
|
678 priv->state = QNetworkConfiguration::Defined; |
|
679 configurationChanged(priv.data()); |
|
680 } |
|
681 } |
|
682 } |
|
683 |
|
684 /* Remove non existing iaps since last update */ |
|
685 foreach (const QString &oldIface, knownConfigs) { |
|
686 QExplicitlySharedDataPointer<QNetworkConfigurationPrivate> priv = accessPointConfigurations.take(oldIface); |
|
687 if (priv.data()) { |
|
688 priv->isValid = false; |
|
689 QNetworkConfiguration item; |
|
690 item.d = priv; |
|
691 emit configurationRemoved(item); |
|
692 //if we would have SNAP support we would have to remove the references |
|
693 //from existing ServiceNetworks to the removed access point configuration |
|
694 } |
|
695 } |
|
696 } |
|
697 |
|
698 QMutableHashIterator<QByteArray, SSIDInfo* > i(notDiscoveredWLANConfigs); |
|
699 while (i.hasNext()) { |
|
700 i.next(); |
|
701 SSIDInfo *iap = i.value(); |
|
702 delete iap; |
|
703 i.remove(); |
|
704 } |
|
705 |
|
706 if (!firstUpdate) |
|
707 emit configurationUpdateComplete(); |
|
708 |
|
709 if (firstUpdate) |
|
710 firstUpdate = false; |
|
711 } |
|
712 |
|
713 QNetworkConfiguration QNetworkConfigurationManagerPrivate::defaultConfiguration() |
|
714 { |
|
715 /* Here we just return [ANY] request to icd and let the icd decide which |
|
716 * IAP to connect. |
|
717 */ |
|
718 QNetworkConfiguration item; |
|
719 if (userChoiceConfigurations.contains(OSSO_IAP_ANY)) |
|
720 item.d = userChoiceConfigurations.value(OSSO_IAP_ANY); |
|
721 return item; |
|
722 } |
|
723 |
|
724 void QNetworkConfigurationManagerPrivate::startListeningStateSignalsForAllConnections() |
|
725 { |
|
726 // Start listening ICD_DBUS_API_STATE_SIG signals |
|
727 m_dbusInterface->connection().connect(ICD_DBUS_API_INTERFACE, |
|
728 ICD_DBUS_API_PATH, |
|
729 ICD_DBUS_API_INTERFACE, |
|
730 ICD_DBUS_API_STATE_SIG, |
|
731 this, SLOT(connectionStateSignalsSlot(QDBusMessage))); |
|
732 |
|
733 // Calling ICD_DBUS_API_STATE_REQ makes sure that initial state will be updated immediately |
|
734 m_gettingInitialConnectionState = true; |
|
735 m_dbusInterface->call(ICD_DBUS_API_STATE_REQ); |
|
736 } |
|
737 |
|
738 void QNetworkConfigurationManagerPrivate::connectionStateSignalsSlot(QDBusMessage msg) |
|
739 { |
|
740 QList<QVariant> arguments = msg.arguments(); |
|
741 if (arguments[1].toUInt() != 0 || arguments.count() < 8) { |
|
742 return; |
|
743 } |
|
744 |
|
745 QString iapid = arguments[5].toByteArray().data(); |
|
746 uint icd_connection_state = arguments[7].toUInt(); |
|
747 |
|
748 switch (icd_connection_state) { |
|
749 case ICD_STATE_CONNECTED: |
|
750 { |
|
751 QExplicitlySharedDataPointer<QNetworkConfigurationPrivate> ptr = accessPointConfigurations.value(iapid); |
|
752 if (ptr.data()) { |
|
753 ptr->type = QNetworkConfiguration::InternetAccessPoint; |
|
754 if (ptr->state != QNetworkConfiguration::Active) { |
|
755 ptr->state = QNetworkConfiguration::Active; |
|
756 if (!m_gettingInitialConnectionState) { |
|
757 configurationChanged(ptr.data()); |
|
758 if (m_onlineIapId.isEmpty()) { |
|
759 emit onlineStateChanged(true); |
|
760 } |
|
761 } |
|
762 m_onlineIapId = iapid; |
|
763 } |
|
764 } else { |
|
765 // This gets called when new WLAN IAP is created using Connection dialog |
|
766 // At this point Undefined WLAN configuration has SSID as iap id |
|
767 // => Because of that configuration can not be found from |
|
768 // accessPointConfigurations using correct iap id |
|
769 emit onlineStateChanged(true); |
|
770 m_onlineIapId = iapid; |
|
771 } |
|
772 break; |
|
773 } |
|
774 case ICD_STATE_DISCONNECTED: |
|
775 { |
|
776 QExplicitlySharedDataPointer<QNetworkConfigurationPrivate> ptr = accessPointConfigurations.value(iapid); |
|
777 if (ptr.data()) { |
|
778 ptr->type = QNetworkConfiguration::InternetAccessPoint; |
|
779 if (ptr->state == QNetworkConfiguration::Active) { |
|
780 ptr->state = QNetworkConfiguration::Discovered; |
|
781 if (!m_gettingInitialConnectionState) { |
|
782 configurationChanged(ptr.data()); |
|
783 |
|
784 // Note: If ICD switches used IAP from one to another: |
|
785 // 1) new IAP is reported to be online first |
|
786 // 2) old IAP is reported to be offline then |
|
787 // => Device can be reported to be offline only |
|
788 // if last known online IAP is reported to be disconnected |
|
789 if (iapid == m_onlineIapId) { |
|
790 // It's known that there is only one global ICD connection |
|
791 // => Because ICD state was reported to be DISCONNECTED, Device is offline |
|
792 m_onlineIapId.clear(); |
|
793 emit onlineStateChanged(false); |
|
794 } |
|
795 } |
|
796 } |
|
797 } else { |
|
798 // Disconnected IAP was not found from accessPointConfigurations |
|
799 // => Reason: Online IAP was removed which resulted ICD to disconnect |
|
800 if (iapid == m_onlineIapId) { |
|
801 // It's known that there is only one global ICD connection |
|
802 // => Because ICD state was reported to be DISCONNECTED, Device is offline |
|
803 m_onlineIapId.clear(); |
|
804 emit onlineStateChanged(false); |
|
805 } |
|
806 } |
|
807 break; |
|
808 } |
|
809 default: |
|
810 break; |
|
811 } |
|
812 |
|
813 emit iapStateChanged(iapid, icd_connection_state); |
|
814 |
|
815 m_gettingInitialConnectionState = false; |
|
816 } |
|
817 |
|
818 void QNetworkConfigurationManagerPrivate::performAsyncConfigurationUpdate() |
|
819 { |
|
820 if (m_scanGoingOn) { |
|
821 return; |
|
822 } |
|
823 m_scanGoingOn = true; |
|
824 |
|
825 m_dbusInterface->connection().connect(ICD_DBUS_API_INTERFACE, |
|
826 ICD_DBUS_API_PATH, |
|
827 ICD_DBUS_API_INTERFACE, |
|
828 ICD_DBUS_API_SCAN_SIG, |
|
829 this, SLOT(asyncUpdateConfigurationsSlot(QDBusMessage))); |
|
830 |
|
831 QDBusMessage msg = m_dbusInterface->call(ICD_DBUS_API_SCAN_REQ, |
|
832 (uint)ICD_SCAN_REQUEST_ACTIVE); |
|
833 m_typesToBeScanned = msg.arguments()[0].value<QStringList>(); |
|
834 m_scanTimer.start(ICD_SHORT_SCAN_TIMEOUT); |
|
835 } |
|
836 |
|
837 void QNetworkConfigurationManagerPrivate::cancelAsyncConfigurationUpdate() |
|
838 { |
|
839 if (!m_scanGoingOn) { |
|
840 return; |
|
841 } |
|
842 m_scanGoingOn = false; |
|
843 |
|
844 if (m_scanTimer.isActive()) { |
|
845 m_scanTimer.stop(); |
|
846 } |
|
847 |
|
848 m_dbusInterface->connection().disconnect(ICD_DBUS_API_INTERFACE, |
|
849 ICD_DBUS_API_PATH, |
|
850 ICD_DBUS_API_INTERFACE, |
|
851 ICD_DBUS_API_SCAN_SIG, |
|
852 this, SLOT(asyncUpdateConfigurationsSlot(QDBusMessage))); |
|
853 |
|
854 // Stop scanning rounds by calling ICD_DBUS_API_SCAN_CANCEL |
|
855 // <=> If ICD_DBUS_API_SCAN_CANCEL is not called, new scanning round will |
|
856 // be started after the module scan timeout. |
|
857 m_dbusInterface->call(ICD_DBUS_API_SCAN_CANCEL); |
|
858 } |
|
859 |
|
860 void QNetworkConfigurationManagerPrivate::finishAsyncConfigurationUpdate() |
|
861 { |
|
862 cancelAsyncConfigurationUpdate(); |
|
863 doUpdateConfigurations(m_scanResult); |
|
864 m_scanResult.clear(); |
|
865 } |
|
866 |
|
867 void QNetworkConfigurationManagerPrivate::asyncUpdateConfigurationsSlot(QDBusMessage msg) |
|
868 { |
|
869 QList<QVariant> arguments = msg.arguments(); |
|
870 uint icd_scan_status = arguments.takeFirst().toUInt(); |
|
871 if (icd_scan_status == ICD_SCAN_COMPLETE) { |
|
872 m_typesToBeScanned.removeOne(arguments[6].toString()); |
|
873 if (!m_typesToBeScanned.count()) { |
|
874 finishAsyncConfigurationUpdate(); |
|
875 } |
|
876 } else { |
|
877 Maemo::IcdScanResult scanResult; |
|
878 scanResult.status = icd_scan_status; |
|
879 scanResult.timestamp = arguments.takeFirst().toUInt(); |
|
880 scanResult.scan.service_type = arguments.takeFirst().toString(); |
|
881 scanResult.service_name = arguments.takeFirst().toString(); |
|
882 scanResult.scan.service_attrs = arguments.takeFirst().toUInt(); |
|
883 scanResult.scan.service_id = arguments.takeFirst().toString(); |
|
884 scanResult.service_priority = arguments.takeFirst().toInt(); |
|
885 scanResult.scan.network_type = arguments.takeFirst().toString(); |
|
886 scanResult.network_name = arguments.takeFirst().toString(); |
|
887 scanResult.scan.network_attrs = arguments.takeFirst().toUInt(); |
|
888 scanResult.scan.network_id = arguments.takeFirst().toByteArray(); |
|
889 scanResult.network_priority = arguments.takeFirst().toInt(); |
|
890 scanResult.signal_strength = arguments.takeFirst().toInt(); |
|
891 scanResult.station_id = arguments.takeFirst().toString(); |
|
892 scanResult.signal_dB = arguments.takeFirst().toInt(); |
|
893 |
|
894 m_scanResult.append(scanResult); |
|
895 } |
|
896 } |
|
897 |
|
898 void QNetworkConfigurationManagerPrivate::cleanup() |
|
899 { |
|
900 if (m_scanGoingOn) { |
|
901 m_scanTimer.stop(); |
|
902 m_dbusInterface->call(ICD_DBUS_API_SCAN_CANCEL); |
|
903 } |
|
904 iapMonitor()->cleanup(); |
|
905 } |
|
906 |
|
907 #include "qnetworkconfigmanager_maemo.moc" |
|
908 #include "moc_qnetworkconfigmanager_maemo_p.cpp" |
|
909 |
|
910 QTM_END_NAMESPACE |