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1 // Copyright (c) 2006-2009 Nokia Corporation and/or its subsidiary(-ies). |
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2 // All rights reserved. |
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3 // This component and the accompanying materials are made available |
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4 // under the terms of "Eclipse Public License v1.0" |
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5 // which accompanies this distribution, and is available |
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6 // at the URL "http://www.eclipse.org/legal/epl-v10.html". |
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7 // |
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8 // Initial Contributors: |
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9 // Nokia Corporation - initial contribution. |
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10 // |
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11 // Contributors: |
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12 // |
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13 // Description: |
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14 // IPProto SubConnection Provider states/transitions |
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15 // |
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16 // |
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17 |
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18 /** |
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19 @file |
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20 @internalComponent |
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21 */ |
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22 |
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23 #include <comms-infras/netcfgextprov.h> |
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24 #include <networking/qos3gpp_subconparams.h> |
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25 #include <cs_subconparams.h> |
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26 #include <cs_subconevents.h> |
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27 #include <comms-infras/corescpractivities.h> |
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28 #include <comms-infras/linkmessages.h> // for TLinkMessage |
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29 #include "ipprotodeftscpr.h" |
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30 #include "ipprotodeftscprstates.h" |
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31 #include "ItfInfoConfigExt.h" |
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32 #include <comms-infras/es_config.h> |
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33 #include <es_panic.h> |
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34 #include <comms-infras/ss_datamonitoringprovider.h> |
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35 #include <comms-infras/ss_log.h> |
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36 |
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37 using namespace Messages; |
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38 using namespace MeshMachine; |
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39 using namespace ESock; |
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40 using namespace NetStateMachine; |
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41 using namespace IPProtoDeftSCpr; |
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42 |
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43 |
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44 DEFINE_SMELEMENT(TStoreProvision, NetStateMachine::MStateTransition, IPProtoDeftSCpr::TContext) |
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45 void IPProtoDeftSCpr::TStoreProvision::DoL() |
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46 { |
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47 PRStates::TStoreProvision storeProvision(iContext); |
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48 storeProvision.DoL(); // set up iContext.Node().iProvisionConfig |
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49 |
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50 // Allocate and add the data monitoring shared memory pointers the provisioning info |
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51 CIPProtoDeftSubConnectionProvider& node = iContext.Node(); |
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52 TDataMonitoringSubConnProvisioningInfo* subConnProvisioningInfo = const_cast<TDataMonitoringSubConnProvisioningInfo*>(static_cast<const TDataMonitoringSubConnProvisioningInfo*>(node.AccessPointConfig().FindExtension(STypeId::CreateSTypeId(TDataMonitoringSubConnProvisioningInfo::iUid, TDataMonitoringSubConnProvisioningInfo::iId)))); |
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53 ASSERT(subConnProvisioningInfo); |
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54 |
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55 #ifdef _DEBUG |
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56 _LIT8(KNote, "Note"); |
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57 if (subConnProvisioningInfo->iDataVolumesPtr || subConnProvisioningInfo->iThresholdsPtr) |
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58 { |
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59 __CFLOG_VAR((KIPProtoDeftScprTag, KNote, _L8("IPProtoDeftSCpr %x:\tNOTE: data monitoring subconnection structure re-assigned"), &node)); |
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60 } |
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61 #endif |
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62 |
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63 // In the situation where there is an existing IPProtoSCPr in the ELeaving state (which has been |
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64 // stopped and has had a TDestroy sent to it) we can safely re-assign the pointers in the (shared) |
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65 // data monitoring subconnection structure from pointing to that IPProtoSCPr instance to this one. |
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66 // This is because the IP Shim Flow corresponding to that IPProtoSCPr should not be performing any |
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67 // data transfer, after having unbound from its lower flow and closed its binders in response to a |
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68 // TDataClientStop. The structure itself is allocated in the CPR. |
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69 |
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70 ::new (subConnProvisioningInfo) TDataMonitoringSubConnProvisioningInfo(&node.iDataVolumes, &node.iThresholds); |
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71 } |
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72 |
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73 //-========================================================= |
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74 // Data monitoring support |
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75 //-========================================================= |
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76 DEFINE_SMELEMENT(TAwaitingDataMonitoringNotification, NetStateMachine::MState, IPProtoDeftSCpr::TContext) |
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77 TBool IPProtoDeftSCpr::TAwaitingDataMonitoringNotification::Accept() |
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78 { |
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79 return iContext.iMessage.IsMessage<TCFDataMonitoringNotification::TDataMonitoringNotification>(); |
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80 } |
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81 |
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82 DEFINE_SMELEMENT(TProcessDataMonitoringNotification, NetStateMachine::MStateTransition, IPProtoDeftSCpr::TContext) |
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83 void IPProtoDeftSCpr::TProcessDataMonitoringNotification::DoL() |
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84 { |
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85 TCFDataMonitoringNotification::TDataMonitoringNotification& msg = |
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86 message_cast<TCFDataMonitoringNotification::TDataMonitoringNotification>(iContext.iMessage); |
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87 |
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88 iContext.Node().DataNotificationL(msg); |
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89 } |
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90 |
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91 // NetCfgExtension Support |
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92 //-========================================================= |
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93 DEFINE_SMELEMENT(TAwaitingStateChangeOrCancel, NetStateMachine::MState, IPProtoDeftSCpr::TContext) |
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94 TBool IPProtoDeftSCpr::TAwaitingStateChangeOrCancel::Accept() |
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95 { |
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96 return (iContext.iMessage.IsMessage<TCFMessage::TStateChange>() || iContext.iMessage.IsMessage<TEBase::TCancel>()); |
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97 } |
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98 |
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99 DEFINE_SMELEMENT(TAwaitingStateChange, NetStateMachine::MState, IPProtoDeftSCpr::TContext) |
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100 TBool IPProtoDeftSCpr::TAwaitingStateChange::Accept() |
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101 { |
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102 return (iContext.iMessage.IsMessage<TCFMessage::TStateChange>()); |
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103 } |
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104 |
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105 DEFINE_SMELEMENT(TAwaitingConfigureNetwork, NetStateMachine::MState, IPProtoDeftSCpr::TContext) |
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106 TBool IPProtoDeftSCpr::TAwaitingConfigureNetwork::Accept() |
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107 { |
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108 return iContext.iMessage.IsMessage<TCFIPProtoMessage::TConfigureNetwork>(); |
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109 } |
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110 |
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111 DEFINE_SMELEMENT(TAwaitingNetworkConfiguredOrError, NetStateMachine::MState, IPProtoDeftSCpr::TContext) |
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112 TBool IPProtoDeftSCpr::TAwaitingNetworkConfiguredOrError::Accept() |
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113 { |
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114 return (iContext.iMessage.IsMessage<TCFIPProtoMessage::TNetworkConfigured>() |
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115 || iContext.iMessage.IsMessage<TEBase::TError>()); |
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116 } |
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117 |
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118 DEFINE_SMELEMENT(TNoTagOrSwallowMessage, NetStateMachine::MStateFork, IPProtoDeftSCpr::TContext) |
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119 TInt IPProtoDeftSCpr::TNoTagOrSwallowMessage::TransitionTag() |
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120 { |
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121 const RMetaExtensionContainerC& mec = iContext.Node().AccessPointConfig(); |
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122 const CNetCfgExtProvision* provision = static_cast<const CNetCfgExtProvision*>(mec.FindExtension( |
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123 STypeId::CreateSTypeId(CNetCfgExtProvision::EUid, CNetCfgExtProvision::ETypeId))); |
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124 TCFMessage::TStateChange& msg = message_cast<TCFMessage::TStateChange>(iContext.iMessage); |
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125 |
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126 if (provision && KLinkLayerOpen == msg.iStateChange.iStage) |
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127 { |
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128 return KSwallowMessage; |
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129 } |
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130 else |
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131 { |
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132 return KNoTag; |
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133 } |
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134 } |
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135 |
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136 DEFINE_SMELEMENT(TStopNetCfgExtOrNoTag, NetStateMachine::MStateFork, IPProtoDeftSCpr::TContext) |
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137 TInt IPProtoDeftSCpr::TStopNetCfgExtOrNoTag::TransitionTag() |
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138 { |
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139 if (iContext.Node().iControl) |
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140 return KStopNetCfgExt; |
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141 |
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142 return KNoTag; |
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143 } |
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144 |
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145 DEFINE_SMELEMENT(TNetworkConfiguredOrErrorTagOrCancelTagOrNoTag, NetStateMachine::MStateFork, IPProtoDeftSCpr::TContext) |
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146 TInt IPProtoDeftSCpr::TNetworkConfiguredOrErrorTagOrCancelTagOrNoTag::TransitionTag() |
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147 { |
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148 if (iContext.iMessage.IsMessage<TEBase::TCancel>()) |
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149 { |
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150 iContext.iNodeActivity->SetError(KErrCancel); |
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151 return KCancelTag; |
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152 } |
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153 |
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154 TCFMessage::TStateChange& msg = message_cast<TCFMessage::TStateChange>(iContext.iMessage); |
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155 |
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156 if (msg.iStateChange.iError != KErrNone) |
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157 { |
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158 iContext.iNodeActivity->SetError(msg.iStateChange.iError); |
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159 return KErrorTag; |
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160 } |
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161 |
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162 if (msg.iStateChange.iStage == KLinkLayerOpen) |
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163 { |
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164 return KNetworkConfigured; |
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165 } |
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166 |
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167 return KNoTag; |
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168 } |
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169 |
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170 DEFINE_SMELEMENT(TNetworkConfiguredOrErrorTagOrCancelTagOrNoTagBackward, NetStateMachine::MStateFork, IPProtoDeftSCpr::TContext) |
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171 TInt IPProtoDeftSCpr::TNetworkConfiguredOrErrorTagOrCancelTagOrNoTagBackward::TransitionTag() |
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172 { |
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173 TInt tag = IPProtoDeftSCpr::TNetworkConfiguredOrErrorTagOrCancelTagOrNoTag::TransitionTag(); |
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174 if (tag == KNoTag) |
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175 return tag | NetStateMachine::EBackward; |
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176 return tag; |
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177 } |
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178 |
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179 DEFINE_SMELEMENT(TErrorTagOrNoTag, NetStateMachine::MStateFork, IPProtoDeftSCpr::TContext) |
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180 TInt IPProtoDeftSCpr::TErrorTagOrNoTag::TransitionTag() |
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181 { |
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182 TEBase::TError *error = message_cast<TEBase::TError>(&iContext.iMessage); |
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183 if (error) |
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184 { |
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185 iContext.iNodeActivity->SetError(error->iValue); |
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186 |
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187 return KErrorTag; |
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188 } |
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189 TCFIPProtoMessage::TNetworkConfigured* msg = message_cast<TCFIPProtoMessage::TNetworkConfigured>(&iContext.iMessage); |
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190 |
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191 if (msg->iValue != KErrNone) |
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192 { |
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193 iContext.iNodeActivity->SetError(msg->iValue); |
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194 |
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195 return KErrorTag; |
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196 } |
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197 return KNoTag; |
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198 } |
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199 |
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200 DEFINE_SMELEMENT(TNoTagOrConfigureNetwork, NetStateMachine::MStateFork, IPProtoDeftSCpr::TContext) |
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201 TInt IPProtoDeftSCpr::TNoTagOrConfigureNetwork::TransitionTag() |
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202 { |
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203 const RMetaExtensionContainerC& mec = iContext.Node().AccessPointConfig(); |
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204 const CNetCfgExtProvision* provision = static_cast<const CNetCfgExtProvision*>(mec.FindExtension( |
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205 STypeId::CreateSTypeId(CNetCfgExtProvision::EUid, CNetCfgExtProvision::ETypeId))); |
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206 |
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207 if (provision) |
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208 { |
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209 return KConfigureNetwork; |
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210 } |
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211 else |
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212 { |
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213 return KNoTag; |
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214 } |
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215 } |
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216 |
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217 DEFINE_SMELEMENT(TNoTagOrProviderStoppedOrDaemonReleased, NetStateMachine::MStateFork, IPProtoDeftSCpr::TContext) |
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218 TInt IPProtoDeftSCpr::TNoTagOrProviderStoppedOrDaemonReleased::TransitionTag() |
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219 { |
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220 iContext.iNodeActivity->SetError(message_cast<TCFDataClient::TStop>(iContext.iMessage).iValue); |
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221 if (iContext.Node().GetFirstClient<TDefaultClientMatchPolicy>(TClientType(TCFClientType::EData, TCFClientType::EStarted)) != NULL) |
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222 { |
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223 // At least one data client started |
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224 if(iContext.Node().iControl) |
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225 { |
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226 return MeshMachine::KNoTag; |
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227 } |
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228 else |
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229 { |
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230 return KDaemonReleased; |
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231 } |
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232 } |
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233 return CoreNetStates::KProviderStopped; |
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234 } |
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235 |
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236 DEFINE_SMELEMENT(TDaemonReleasedStateChangedOrNoTagBackward, NetStateMachine::MStateFork, IPProtoDeftSCpr::TContext) |
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237 TInt IPProtoDeftSCpr::TDaemonReleasedStateChangedOrNoTagBackward::TransitionTag() |
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238 { |
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239 TInt tag = IPProtoDeftSCpr::TDaemonReleasedStateChangedOrNoTag::TransitionTag(); |
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240 if (tag == KNoTag) |
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241 return tag | NetStateMachine::EBackward; |
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242 return tag; |
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243 } |
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244 |
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245 DEFINE_SMELEMENT(TDaemonReleasedStateChangedOrNoTag, NetStateMachine::MStateFork, IPProtoDeftSCpr::TContext) |
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246 TInt IPProtoDeftSCpr::TDaemonReleasedStateChangedOrNoTag::TransitionTag() |
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247 { |
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248 TCFMessage::TStateChange& msg = message_cast<TCFMessage::TStateChange>(iContext.iMessage); |
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249 |
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250 if (msg.iStateChange.iStage == KConfigDaemonFinishedDeregistrationStop) |
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251 { |
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252 return KDaemonReleasedStateChanged; |
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253 } |
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254 return KNoTag; |
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255 } |
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256 |
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257 DEFINE_SMELEMENT(TConfigureNetwork, NetStateMachine::MStateTransition, IPProtoDeftSCpr::TContext) |
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258 void IPProtoDeftSCpr::TConfigureNetwork::DoL() |
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259 { |
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260 iContext.iNodeActivity->PostRequestTo(iContext.NodeId(), TCFIPProtoMessage::TConfigureNetwork().CRef()); |
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261 } |
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262 |
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263 DEFINE_SMELEMENT(TSendNetworkConfigured, NetStateMachine::MStateTransition, IPProtoDeftSCpr::TContext) |
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264 void IPProtoDeftSCpr::TSendNetworkConfigured::DoL() |
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265 { |
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266 TCFIPProtoMessage::TNetworkConfigured resp(iContext.iNodeActivity->Error()); |
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267 iContext.iNodeActivity->SetError(KErrNone); |
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268 iContext.iNodeActivity->PostToOriginators(resp); |
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269 } |
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270 |
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271 DEFINE_SMELEMENT(TStartNetCfgExt, NetStateMachine::MStateTransition, IPProtoDeftSCpr::TContext) |
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272 void IPProtoDeftSCpr::TStartNetCfgExt::DoL() |
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273 { |
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274 ASSERT(!iContext.Node().iNotify); |
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275 ASSERT(!iContext.Node().iControl); |
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276 |
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277 iContext.Node().iNotify = CNetCfgExtNotify::NewL(&iContext.Node()); |
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278 iContext.Node().iControl = CNifConfigurationControl::NewL(*iContext.Node().iNotify); |
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279 iContext.Node().iControl->ConfigureNetworkL(); |
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280 } |
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281 |
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282 |
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283 DEFINE_SMELEMENT(TStopNetCfgExt, NetStateMachine::MStateTransition, IPProtoDeftSCpr::TContext) |
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284 void IPProtoDeftSCpr::TStopNetCfgExt::DoL() |
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285 { |
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286 if(!iContext.Node().iControl) return; |
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287 |
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288 iContext.Node().iControl->Deregister(EConfigDaemonDeregisterCauseStop); |
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289 } |
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290 |
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291 DEFINE_SMELEMENT(TStopNetCfgExtDelete, NetStateMachine::MStateTransition, IPProtoDeftSCpr::TContext) |
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292 void IPProtoDeftSCpr::TStopNetCfgExtDelete::DoL() |
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293 { |
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294 if(!iContext.Node().iControl) |
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295 { |
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296 return; |
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297 } |
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298 iContext.Node().iControl->AsyncDelete(); |
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299 iContext.Node().iControl = NULL; |
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300 |
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301 delete iContext.Node().iNotify; |
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302 iContext.Node().iNotify = NULL; |
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303 } |
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304 |
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305 DEFINE_SMELEMENT(TResetSentTo, NetStateMachine::MStateTransition, IPProtoDeftSCpr::TContext) |
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306 void IPProtoDeftSCpr::TResetSentTo::DoL() |
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307 { |
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308 iContext.iNodeActivity->ClearPostedTo(); |
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309 } |
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310 |
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311 //-========================================================= |
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312 // Ioctl Support |
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313 //-========================================================= |
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314 DEFINE_SMELEMENT(TAwaitingIoctlProcessed, NetStateMachine::MState, IPProtoDeftSCpr::TContext) |
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315 TBool IPProtoDeftSCpr::TAwaitingIoctlProcessed::Accept() |
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316 { |
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317 return iContext.iMessage.IsMessage<TCFLegacyMessage::TLegacyRMessage2Processed>(); |
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318 } |
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319 |
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320 void IPProtoDeftSCpr::TAwaitingIoctlProcessed::Cancel() |
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321 { |
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322 CIPProtoDeftSubConnectionProvider* node = static_cast<CIPProtoDeftSubConnectionProvider*>(&iContext.Node()); |
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323 if (node->iControl) |
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324 { |
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325 node->iControl->CancelControl(); |
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326 } |
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327 |
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328 iContext.Activity()->SetError(KErrCancel); |
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329 } |
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330 |
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331 DEFINE_SMELEMENT(TNoTagOrTryNetCfgExt, NetStateMachine::MStateFork, IPProtoDeftSCpr::TContext) |
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332 TInt IPProtoDeftSCpr::TNoTagOrTryNetCfgExt::TransitionTag() |
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333 { |
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334 TCFLegacyMessage::TLegacyRMessage2Processed& msg = message_cast<TCFLegacyMessage::TLegacyRMessage2Processed>(iContext.iMessage); |
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335 |
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336 if ((msg.iResponse.iType == ESock::TLegacyRMessage2Response::ENormal && msg.iResponse.iCode == KErrNone) |
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337 || msg.iResponse.iType == ESock::TLegacyRMessage2Response::EPanic) |
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338 { |
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339 return KNoTag; |
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340 } |
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341 else |
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342 { |
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343 return KTryNetCfgExt; |
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344 } |
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345 } |
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346 |
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347 DEFINE_SMELEMENT(TTryServiceProviderOrTryNetCfgExt, NetStateMachine::MStateFork, IPProtoDeftSCpr::TContext) |
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348 TInt IPProtoDeftSCpr::TTryServiceProviderOrTryNetCfgExt::TransitionTag() |
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349 { |
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350 MeshMachine::CNodeParallelMessageStoreActivityBase* act = static_cast<MeshMachine::CNodeParallelMessageStoreActivityBase*>(iContext.Activity()); |
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351 |
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352 ASSERT(act->Message().IsTypeOf(Meta::STypeId::CreateSTypeId(TCFSigLegacyRMessage2Ext::EUid, TCFSigLegacyRMessage2Ext::ETypeId))); |
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353 if ((static_cast<TCFSigLegacyRMessage2Ext&>(act->Message()).iMessage.Int0() == KCOLConfiguration |
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354 && static_cast<TCFSigLegacyRMessage2Ext&>(act->Message()).iMessage.Int1() == KConnGetSipServerAddr)) |
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355 { |
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356 return KTryServiceProvider; |
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357 } |
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358 else |
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359 { |
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360 return KTryNetCfgExt; |
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361 } |
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362 } |
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363 |
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364 DEFINE_SMELEMENT(TForwardToServiceProvider, NetStateMachine::MStateTransition, IPProtoDeftSCpr::TContext) |
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365 void IPProtoDeftSCpr::TForwardToServiceProvider::DoL() |
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366 { |
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367 ASSERT(iContext.iMessage.IsTypeOf(Meta::STypeId::CreateSTypeId(TCFSigLegacyRMessage2Ext::EUid, TCFSigLegacyRMessage2Ext::ETypeId))); |
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368 |
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369 MeshMachine::CNodeParallelMessageStoreActivityBase* act = static_cast<MeshMachine::CNodeParallelMessageStoreActivityBase*>(iContext.Activity()); |
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370 |
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371 TCFSigLegacyRMessage2Ext::RReadOnlyRMessage& ioctl(static_cast<TCFSigLegacyRMessage2Ext&>(act->Message()).iMessage); |
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372 RLegacyResponseMsg r(iContext, static_cast<TCFSigLegacyRMessage2Ext&>(act->Message()).iMessage, static_cast<TCFSigLegacyRMessage2Ext&>(act->Message()).iMessage.Int0()); |
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373 |
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374 // currently only supporting configuration ioctls |
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375 if (ioctl.Int0() == KCOLConfiguration && ioctl.Int1() == KConnGetSipServerAddr) |
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376 { |
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377 TSipServerAddrBuf sipAddr; |
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378 if (ioctl.GetDesLengthL(2) != sipAddr.Length()) |
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379 { |
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380 r.Panic(KESockClientPanic, EBadDescriptor); |
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381 act->ClearPostedTo(); |
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382 return; // the sip address handlers will complete the message |
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383 } |
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384 } |
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385 |
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386 RNodeInterface* dc = iContext.Node().GetFirstClient<TDefaultClientMatchPolicy>(TClientType(TCFClientType::EServProvider)); |
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387 |
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388 iContext.Activity()->PostRequestTo(*dc, iContext.iMessage); |
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389 } |
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390 |
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391 DEFINE_SMELEMENT(THandoffToNetCfgExt, NetStateMachine::MStateTransition, IPProtoDeftSCpr::TContext) |
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392 void IPProtoDeftSCpr::THandoffToNetCfgExt::DoL() |
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393 { |
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394 ASSERT(iContext.Activity()); |
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395 MeshMachine::CNodeParallelMessageStoreActivityBase* act = static_cast<MeshMachine::CNodeParallelMessageStoreActivityBase*>(iContext.Activity()); |
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396 |
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397 TCFSigLegacyRMessage2Ext::RReadOnlyRMessage& ioctl(static_cast<TCFSigLegacyRMessage2Ext&>(act->Message()).iMessage); |
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398 RLegacyResponseMsg r(iContext, static_cast<TCFSigLegacyRMessage2Ext&>(act->Message()).iMessage, static_cast<TCFSigLegacyRMessage2Ext&>(act->Message()).iMessage.Int0()); |
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399 |
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400 if (ioctl.Int0() == KCOLConfiguration && ioctl.Int1() == KConnGetSipServerAddr) |
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401 { |
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402 TCFSigLegacyRMessage2Ext::RReadOnlyRMessage& ioctl(static_cast<TCFSigLegacyRMessage2Ext&>(act->Message()).iMessage); |
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403 TSipServerAddrBuf sipAddr; |
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404 if (ioctl.GetDesLengthL(2) != sipAddr.Length()) |
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405 { |
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406 r.Panic(KESockClientPanic, EBadDescriptor); |
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407 act->ClearPostedTo(); |
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408 return; // the sip address handlers will complete the message |
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409 } |
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410 } |
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411 |
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412 if ((ioctl.Int0() == KCOLConfiguration && ioctl.Int1() == KConnGetSipServerAddr)) |
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413 { |
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414 TSipServerAddrBuf sipBuf; |
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415 ioctl.ReadL( 2, sipBuf ); |
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416 |
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417 if( sipBuf().index != 0 ) |
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418 { |
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419 r.Complete(KErrNotFound); |
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420 act->ClearPostedTo(); |
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421 return; |
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422 } |
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423 } |
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424 |
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425 // IPProto returns KErrNotSupported if DHCP is not configured for the IAP |
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426 // so we want to make sure DHCP fallback is only ever tried once for index |
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427 // zero. Otherwise, the last address index that the caller tries may return |
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428 // KErrNotSupported instead of the expected KErrNotFound. |
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429 if (iContext.Node().iControl) |
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430 { |
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431 iContext.Node().iControl->SendIoctlMessageL(r); |
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432 act->ClearPostedTo(); |
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433 } |
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434 else |
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435 { |
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436 const RMetaExtensionContainerC& mec = iContext.Node().AccessPointConfig(); |
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437 const CNetCfgExtProvision* provision = static_cast<const CNetCfgExtProvision*>(mec.FindExtension( |
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438 STypeId::CreateSTypeId(CNetCfgExtProvision::EUid, CNetCfgExtProvision::ETypeId))); |
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439 |
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440 if (provision) |
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441 { |
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442 r.Complete(KErrNotReady); |
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443 act->ClearPostedTo(); |
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444 } |
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445 else |
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446 { |
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447 r.Complete(KErrNotSupported); |
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448 act->ClearPostedTo(); |
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449 } |
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450 } |
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451 } |
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452 |
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453 // |
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454 // support for AgentEventNotification |
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455 // |
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456 DEFINE_SMELEMENT(TAwaitingAgentEventNotification, NetStateMachine::MState, IPProtoDeftSCpr::TContext) |
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457 TBool IPProtoDeftSCpr::TAwaitingAgentEventNotification::Accept() |
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458 { |
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459 return iContext.iMessage.IsMessage<TLinkMessage::TAgentEventNotification>(); |
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460 } |
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461 |
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462 DEFINE_SMELEMENT(TProcessAgentEvent, NetStateMachine::MStateTransition, IPProtoDeftSCpr::TContext) |
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463 void IPProtoDeftSCpr::TProcessAgentEvent::DoL() |
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464 { |
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465 if (iContext.Node().iControl) |
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466 { |
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467 // AgentEventNotification originates from the AgentSCPr as a result of an AgentEvent() |
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468 // call from the Agent. Although the message is generic, it was primarily created to pass the |
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469 // event ECurrentNetworkChangeEvent from the Agent towards the NetCfgExt for CDMA2000 support. |
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470 // The "aEventData" and "aSource" fields of the EventNotification() call are not used for this |
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471 // event, and hence are passed as null values. |
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472 TLinkMessage::TAgentEventNotification& msg = message_cast<TLinkMessage::TAgentEventNotification>(iContext.iMessage); |
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473 iContext.Node().iControl->EventNotification(TNetworkAdaptorEventType(msg.iValue1), msg.iValue2, KNullDesC8, NULL); |
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474 } |
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475 } |
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476 |