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1 // Copyright (c) 1999-2009 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 // |
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15 |
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16 #include <bluetooth/logger.h> |
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17 |
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18 #include "physicallinkmetrics.h" |
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19 #include "physicallinks.h" |
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20 #include "linkutil.h" |
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21 #include "ProxySAP.h" |
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22 #include "btsockettimer.h" |
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23 |
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24 #include <bluetooth/hci/hciutil.h> |
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25 #include <bluetooth/hci/readfailedcontactcountercommand.h> |
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26 #include <bluetooth/hci/readlinkqualitycommand.h> |
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27 #include <bluetooth/hci/readrssicommand.h> |
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28 #include <bluetooth/hci/readtransmitpowerlevelcommand.h> |
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29 #include <bluetooth/hci/readrssicompleteevent.h> |
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30 #include <bluetooth/hci/readlinkqualitycompleteevent.h> |
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31 #include <bluetooth/hci/readfailedcontactcountercompleteevent.h> |
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32 #include <bluetooth/hci/readtransmitpowerlevelcompleteevent.h> |
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33 |
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34 #ifdef __FLOG_ACTIVE |
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35 _LIT8(KLogComponent, LOG_COMPONENT_LINKMGR); |
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36 #endif |
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37 |
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38 |
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39 |
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40 |
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41 TPLMManager::TPLMManager() |
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42 :iPLMQue(_FOFF(CBTProxySAP, iPLMLink)) |
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43 { |
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44 LOG_FUNC |
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45 } |
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46 void TPLMManager::UpdatePLMState(THciCommandState aPLMState) |
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47 { |
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48 LOG_FUNC |
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49 FTRACE(FPrint(_L("TPLMManager::UpdatePLMState, Previous state :: %d\n"), iPLMState)); |
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50 iPLMState = aPLMState; |
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51 FTRACE(FPrint(_L("TPLMManager::UpdatePLMState, Changed state :: %d\n"), iPLMState)); |
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52 } |
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53 |
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54 void TPLMManager::RegisterProxySAP(CBTProxySAP& aSAP) |
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55 { |
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56 LOG_FUNC |
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57 iPLMQue.AddLast(aSAP); |
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58 } |
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59 |
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60 void TPLMManager::UpdatePLMValue(TInt aPLMValue) |
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61 { |
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62 LOG_FUNC |
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63 FTRACE(FPrint(_L("TPLMManager::UpdatePLMValue, Previous PLM value :: %d\n"), (PLMValue())() )); |
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64 iPLMValue() = aPLMValue; |
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65 FTRACE(FPrint(_L("TPLMManager::UpdatePLMValue, Changed PLM value :: %d\n"), (PLMValue())() )); |
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66 } |
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67 |
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68 TPckgBuf<TInt>& TPLMManager::PLMValue() |
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69 { |
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70 LOG_FUNC |
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71 return iPLMValue; |
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72 } |
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73 |
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74 THciCommandState TPLMManager::PLMState() const |
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75 { |
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76 LOG_FUNC |
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77 return iPLMState; |
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78 } |
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79 |
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80 void TPLMManager::NotifyQueuedProxySAPs(TInt aErr, TUint aName, TDesC8* aBuf) |
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81 { |
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82 LOG_FUNC |
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83 TDblQueIter<CBTProxySAP> iter(iPLMQue); |
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84 CBTProxySAP* thisSAP; |
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85 |
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86 // Iterate through all ProxySAPs that have requested this PLM, notifying them |
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87 while ((thisSAP = iter++) != NULL) |
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88 { |
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89 thisSAP->IoctlComplete(aErr, KSolBtLMProxy, aName, aBuf); |
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90 thisSAP->iPLMLink.Deque(); |
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91 } |
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92 } |
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93 |
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94 /*Check if we have any outstanding requests registered by the clients*/ |
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95 TBool TPLMManager::AnyOutstandingClientRequest() const |
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96 { |
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97 LOG_FUNC |
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98 if(iPLMQue.IsEmpty()) |
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99 { |
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100 return EFalse; |
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101 } |
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102 else |
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103 { |
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104 return ETrue; |
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105 } |
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106 } |
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107 |
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108 // ------------------------------------------------------------------------ |
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109 // class CPhysicalLinkMetrics |
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110 // ------------------------------------------------------------------------ |
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111 |
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112 |
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113 CPhysicalLinkMetrics* CPhysicalLinkMetrics::NewL(CPhysicalLink& aLink, MHCICommandQueue& aCmdController) |
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114 { |
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115 LOG_STATIC_FUNC |
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116 |
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117 CPhysicalLinkMetrics* self = new(ELeave) CPhysicalLinkMetrics(aLink, aCmdController); |
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118 CleanupStack::PushL(self); |
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119 self->ConstructL(); |
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120 CleanupStack::Pop(self); |
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121 return self; |
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122 } |
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123 |
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124 CPhysicalLinkMetrics::CPhysicalLinkMetrics(CPhysicalLink& aLink, MHCICommandQueue& aCmdController) |
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125 : iParent(aLink), |
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126 iCmdController(aCmdController), |
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127 iQueLink(this) |
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128 { |
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129 TCallBack plmCb(PLMEventReceived, this); |
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130 iPLMTimer.Set(plmCb); |
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131 |
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132 iParent.SubscribeLinkObserver(*this); |
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133 } |
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134 |
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135 void CPhysicalLinkMetrics::ConstructL() |
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136 { |
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137 LOG_FUNC |
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138 } |
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139 |
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140 CPhysicalLinkMetrics::~CPhysicalLinkMetrics() |
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141 { |
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142 RemovePLMCommands(); |
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143 } |
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144 |
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145 void CPhysicalLinkMetrics::PhysicalLinkChange(const TBTBasebandEventNotification& aEvent, CPhysicalLink& /* aPhysicalLink */) |
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146 { |
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147 LOG_FUNC; |
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148 if (aEvent.EventType() == ENotifyPhysicalLinkDown || aEvent.EventType() == ENotifyPhysicalLinkError) |
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149 { |
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150 RemovePLMPoll(); |
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151 iRssi.NotifyQueuedProxySAPs(KErrDisconnected, KLMReadRssiIoctl, &iDummyResult); |
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152 iLinkQuality.NotifyQueuedProxySAPs(KErrDisconnected, KLMReadLinkQualityIoctl, &iDummyResult); |
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153 iFailedContactCounter.NotifyQueuedProxySAPs(KErrDisconnected, KLMReadFailedContactCounterIoctl, &iDummyResult); |
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154 iTransmitPowerLevel.NotifyQueuedProxySAPs(KErrDisconnected, KLMReadCurrentTransmitPowerLevelIoctl, &iDummyResult); |
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155 } |
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156 } |
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157 |
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158 TPhysicalLinkObserverQLink& CPhysicalLinkMetrics::ObserverQLink() |
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159 { |
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160 return iQueLink; |
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161 } |
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162 |
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163 void CPhysicalLinkMetrics::ReadNewPhysicalLinkMetricValue(TUint aIoctlName, CBTProxySAP& aSAP, TInt aCurrentValue) |
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164 { |
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165 LOG_FUNC; |
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166 switch (aIoctlName) |
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167 { |
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168 case KLMReadRssiIoctl: |
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169 { |
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170 // If the command has not been issued, we issue now |
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171 if (iRssi.PLMState() == ECommandIdle) |
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172 { |
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173 iRssi.UpdatePLMValue(aCurrentValue); |
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174 iRssi.RegisterProxySAP(aSAP); |
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175 //Issue the command and change the state to ECommandIssued |
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176 ReadRssiCommand(); |
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177 } |
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178 // Otherwise, if the command is waiting for the timer to expire, and the current value the user has is |
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179 // different to the currently cached value, we complete straight away |
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180 else if (iRssi.PLMState() == ECommandBlockedForTimer && aCurrentValue != iRssi.PLMValue()()) |
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181 { |
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182 aSAP.IoctlComplete(KErrNone, KSolBtLMProxy, KLMReadRssiIoctl, &iRssi.PLMValue()); |
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183 } |
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184 // Otherwise, if we are waiting for the command to complete, or we are waiting for the timer to expire, |
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185 // and the value the user has is the same as the cached valuewe just queue the SAP. |
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186 else |
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187 { |
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188 iRssi.RegisterProxySAP(aSAP); |
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189 } |
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190 } |
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191 break; |
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192 case KLMReadLinkQualityIoctl: |
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193 { |
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194 // If the command has not been issued, we issue now |
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195 if (iLinkQuality.PLMState() == ECommandIdle) |
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196 { |
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197 iLinkQuality.UpdatePLMValue(aCurrentValue); |
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198 iLinkQuality.RegisterProxySAP(aSAP); |
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199 //Issue the command and change the state to ECommandIssued |
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200 ReadLinkQualityCommand(); |
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201 } |
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202 // Otherwise, if the command is waiting for the timer to expire, and the current value the user has is |
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203 // different to the currently cached value, we complete straight away |
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204 else if (iLinkQuality.PLMState() == ECommandBlockedForTimer && aCurrentValue != iLinkQuality.PLMValue()()) |
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205 { |
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206 aSAP.IoctlComplete(KErrNone, KSolBtLMProxy, KLMReadLinkQualityIoctl, &iLinkQuality.PLMValue()); |
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207 } |
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208 // Otherwise, if we are waiting for the command to complete, or we are waiting for the timer to expire, |
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209 // and the value the user has is the same as the cached valuewe just queue the SAP. |
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210 else |
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211 { |
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212 iLinkQuality.RegisterProxySAP(aSAP); |
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213 } |
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214 } |
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215 break; |
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216 case KLMReadFailedContactCounterIoctl: |
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217 { |
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218 // If the command has not been issued, we issue now |
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219 if (iFailedContactCounter.PLMState() == ECommandIdle) |
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220 { |
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221 iFailedContactCounter.UpdatePLMValue(aCurrentValue); |
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222 iFailedContactCounter.RegisterProxySAP(aSAP); |
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223 //Issue the command and change the state to ECommandIssued |
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224 ReadFailedContactCounterCommand(); |
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225 } |
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226 // Otherwise, if the command is waiting for the timer to expire, and the current value the user has is |
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227 // different to the currently cached value, we complete straight away |
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228 else if (iFailedContactCounter.PLMState() == ECommandBlockedForTimer && aCurrentValue != iFailedContactCounter.PLMValue()()) |
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229 { |
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230 aSAP.IoctlComplete(KErrNone, KSolBtLMProxy, KLMReadFailedContactCounterIoctl, &iFailedContactCounter.PLMValue()); |
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231 } |
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232 // Otherwise, if we are waiting for the command to complete, or we are waiting for the timer to expire, |
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233 // and the value the user has is the same as the cached valuewe just queue the SAP. |
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234 else |
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235 { |
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236 iFailedContactCounter.RegisterProxySAP(aSAP); |
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237 } |
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238 } |
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239 break; |
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240 case KLMReadCurrentTransmitPowerLevelIoctl: |
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241 { |
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242 // If the command has not been issued, we issue now |
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243 if (iTransmitPowerLevel.PLMState() == ECommandIdle) |
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244 { |
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245 iTransmitPowerLevel.UpdatePLMValue(aCurrentValue); |
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246 iTransmitPowerLevel.RegisterProxySAP(aSAP); |
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247 //Issue the command and change the state to ECommandIssued |
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248 ReadTransmitPowerLevelCommand(); |
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249 } |
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250 // Otherwise, if the command is waiting for the timer to expire, and the current value the user has is |
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251 // different to the currently cached value, we complete straight away |
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252 else if (iTransmitPowerLevel.PLMState() == ECommandBlockedForTimer && aCurrentValue != iTransmitPowerLevel.PLMValue()()) |
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253 { |
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254 aSAP.IoctlComplete(KErrNone, KSolBtLMProxy, KLMReadCurrentTransmitPowerLevelIoctl, &iTransmitPowerLevel.PLMValue()); |
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255 } |
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256 // Otherwise, if we are waiting for the command to complete, or we are waiting for the timer to expire, |
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257 // and the value the user has is the same as the cached valuewe just queue the SAP. |
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258 else |
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259 { |
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260 iTransmitPowerLevel.RegisterProxySAP(aSAP); |
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261 } |
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262 } |
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263 break; |
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264 default: |
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265 __ASSERT_DEBUG(EFalse, Panic(EBTProxySAPInvalidIoctl)); |
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266 } |
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267 } |
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268 |
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269 void CPhysicalLinkMetrics::ReadRssiCommand() |
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270 { |
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271 LOG_FUNC |
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272 TRAPD(err, ReadRssiCommandL()); |
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273 if (err != KErrNone) |
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274 { |
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275 iRssi.NotifyQueuedProxySAPs(err, KLMReadRssiIoctl, &iDummyResult); |
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276 } |
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277 } |
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278 |
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279 void CPhysicalLinkMetrics::ReadRssiCommandL() |
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280 { |
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281 LOG_FUNC |
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282 // Ownership of cmd transfered even if MhcqAddCommandL leaves |
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283 CReadRSSICommand* cmd = CReadRSSICommand::NewL(iParent.Handle()); |
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284 iCmdController.MhcqAddCommandL(cmd, *this); |
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285 iRssi.UpdatePLMState(ECommandIssued); |
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286 } |
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287 |
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288 void CPhysicalLinkMetrics::ReadLinkQualityCommand() |
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289 { |
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290 LOG_FUNC |
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291 TRAPD(err, ReadLinkQualityCommandL()); |
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292 if (err != KErrNone) |
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293 { |
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294 iLinkQuality.NotifyQueuedProxySAPs(err, KLMReadLinkQualityIoctl, &iDummyResult); |
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295 } |
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296 } |
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297 |
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298 void CPhysicalLinkMetrics::ReadLinkQualityCommandL() |
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299 { |
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300 LOG_FUNC |
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301 // Ownership of cmd transfered even if MhcqAddCommandL leaves |
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302 CReadLinkQualityCommand* cmd = CReadLinkQualityCommand::NewL(iParent.Handle()); |
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303 iCmdController.MhcqAddCommandL(cmd, *this); |
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304 iLinkQuality.UpdatePLMState(ECommandIssued); |
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305 } |
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306 |
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307 void CPhysicalLinkMetrics::ReadFailedContactCounterCommand() |
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308 { |
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309 LOG_FUNC |
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310 TRAPD(err, ReadFailedContactCounterCommandL()); |
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311 if (err != KErrNone) |
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312 { |
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313 iFailedContactCounter.NotifyQueuedProxySAPs(err, KLMReadFailedContactCounterIoctl, &iDummyResult); |
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314 } |
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315 } |
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316 |
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317 void CPhysicalLinkMetrics::ReadFailedContactCounterCommandL() |
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318 { |
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319 LOG_FUNC |
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320 // Ownership of cmd transfered even if MhcqAddCommandL leaves |
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321 CReadFailedContactCounterCommand* cmd = CReadFailedContactCounterCommand::NewL(iParent.Handle()); |
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322 iCmdController.MhcqAddCommandL(cmd, *this); |
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323 iFailedContactCounter.UpdatePLMState(ECommandIssued); |
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324 } |
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325 |
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326 void CPhysicalLinkMetrics::ReadTransmitPowerLevelCommand() |
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327 { |
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328 LOG_FUNC |
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329 TRAPD(err, ReadTransmitPowerLevelCommandL()); |
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330 if (err != KErrNone) |
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331 { |
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332 iTransmitPowerLevel.NotifyQueuedProxySAPs(err, KLMReadCurrentTransmitPowerLevelIoctl, &iDummyResult); |
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333 } |
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334 } |
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335 |
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336 void CPhysicalLinkMetrics::ReadTransmitPowerLevelCommandL() |
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337 { |
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338 LOG_FUNC |
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339 // Ownership of cmd transfered even if MhcqAddCommandL leaves |
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340 CReadTransmitPowerLevelCommand* cmd = CReadTransmitPowerLevelCommand::NewL(iParent.Handle(), ECurrentTransmitPowerLevel); |
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341 iCmdController.MhcqAddCommandL(cmd, *this); |
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342 iTransmitPowerLevel.UpdatePLMState(ECommandIssued); |
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343 } |
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344 |
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345 void CPhysicalLinkMetrics::MhcqcCommandErrored(TInt aErrorCode, const CHCICommandBase* aCommand) |
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346 { |
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347 LOG_FUNC |
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348 __ASSERT_DEBUG(aCommand, Panic(EHCIUnknownCommandEvent)); // this should never happen |
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349 LOG2(_L("error code:%d opcode:0x%x"), aErrorCode, aCommand->Opcode()); |
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350 switch (aCommand->Opcode()) |
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351 { |
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352 case KReadFailedContactCounterOpcode: |
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353 iFailedContactCounter.UpdatePLMState(ECommandIdle); |
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354 iFailedContactCounter.NotifyQueuedProxySAPs(aErrorCode, KLMReadFailedContactCounterIoctl, &iDummyResult); |
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355 break; |
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356 |
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357 case KReadLinkQualityOpcode: |
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358 iLinkQuality.UpdatePLMState(ECommandIdle); |
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359 iLinkQuality.NotifyQueuedProxySAPs(aErrorCode, KLMReadLinkQualityIoctl, &iDummyResult); |
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360 break; |
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361 |
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362 case KReadRSSIOpcode: |
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363 iRssi.UpdatePLMState(ECommandIdle); |
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364 iRssi.NotifyQueuedProxySAPs(aErrorCode, KLMReadRssiIoctl, &iDummyResult); |
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365 break; |
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366 |
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367 case KReadTransmitPowerLevelOpcode: |
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368 iTransmitPowerLevel.UpdatePLMState(ECommandIdle); |
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369 iTransmitPowerLevel.NotifyQueuedProxySAPs(aErrorCode, KLMReadCurrentTransmitPowerLevelIoctl, &iDummyResult); |
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370 break; |
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371 |
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372 default: |
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373 //LOG1(_L("physicallinkmetrics.cpp: Invalid command opcode, expecting only PLM commands but got %d command"),aCommand->Opcode()); |
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374 __ASSERT_DEBUG(EFalse, Panic(EHCICommandBadArgument)); |
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375 } |
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376 } |
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377 |
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378 |
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379 // From MHCICommandQueueClient |
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380 void CPhysicalLinkMetrics::MhcqcCommandEventReceived(const THCIEventBase& aEvent, |
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381 const CHCICommandBase* /*aRelatedCommand*/) |
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382 { |
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383 LOG_FUNC |
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384 switch(aEvent.EventCode()) |
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385 { |
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386 case ECommandCompleteEvent: |
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387 { |
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388 const THCICommandCompleteEvent& completeEvent = THCICommandCompleteEvent::Cast(aEvent); |
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389 CommandCompleteEvent(completeEvent); |
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390 break; |
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391 } |
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392 |
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393 default: |
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394 { |
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395 LOG1(_L("Warning!! Unexpected Event Received (event code:%d)"), aEvent.EventCode()); |
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396 __ASSERT_DEBUG(EFalse, Panic(EHCIUnexpectedEvent)); |
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397 break; |
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398 } |
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399 } |
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400 } |
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401 |
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402 void CPhysicalLinkMetrics::CommandCompleteEvent(const THCICommandCompleteEvent& aEvent) |
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403 { |
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404 LOG_FUNC |
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405 THCIOpcode opcode = aEvent.CommandOpcode(); |
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406 |
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407 switch (opcode) |
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408 { |
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409 case KReadFailedContactCounterOpcode: |
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410 { |
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411 const TReadFailedContactCounterCompleteEvent& event = TReadFailedContactCounterCompleteEvent::Cast(aEvent); |
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412 HandleReadFailedContactCounterCompleteEvent(event); |
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413 } |
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414 break; |
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415 |
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416 case KReadLinkQualityOpcode: |
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417 { |
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418 const TReadLinkQualityCompleteEvent& event = TReadLinkQualityCompleteEvent::Cast(aEvent); |
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419 HandleReadLinkQualityCompleteEvent(event); |
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420 } |
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421 break; |
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422 |
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423 case KReadRSSIOpcode: |
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424 { |
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425 const TReadRSSICompleteEvent& event = TReadRSSICompleteEvent::Cast(aEvent); |
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426 HandleReadRssiCompleteEvent(event); |
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427 } |
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428 break; |
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429 |
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430 case KReadTransmitPowerLevelOpcode: |
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431 { |
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432 const TReadTransmitPowerLevelCompleteEvent& event = TReadTransmitPowerLevelCompleteEvent::Cast(aEvent); |
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433 HandleReadTransmitPowerLevelCompleteEvent(event); |
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434 } |
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435 break; |
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436 |
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437 default: |
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438 LOG2(_L("Warning: Unexpected Command complete event! Opcode %d error code %d"), opcode, aEvent.ErrorCode()); |
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439 __ASSERT_DEBUG(EFalse, Panic(EHCIUnknownCommandCompleteOpcode)); |
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440 break; |
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441 } |
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442 } |
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443 |
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444 void CPhysicalLinkMetrics::HandleReadFailedContactCounterCompleteEvent(const TReadFailedContactCounterCompleteEvent& aEvent) |
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445 { |
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446 LOG_FUNC |
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447 TUint8 result = 0; |
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448 TInt err = CHciUtil::SymbianErrorCode(aEvent.ErrorCode()); |
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449 if (err == KErrNone) |
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450 { |
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451 result = aEvent.FailedContactCounter(); |
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452 } |
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453 |
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454 if (err != KErrNone || static_cast<TInt>(result) != iFailedContactCounter.PLMValue()()) |
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455 { |
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456 iFailedContactCounter.UpdatePLMValue(result); |
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457 // Notify all SAPs via IoctlComplete, with the result or an error code |
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458 iFailedContactCounter.NotifyQueuedProxySAPs(err, KLMReadFailedContactCounterIoctl, &iFailedContactCounter.PLMValue()); |
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459 } |
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460 iFailedContactCounter.UpdatePLMState(ECommandBlockedForTimer); |
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461 QueueNextPLMPollIfNotAlreadyQueued(); |
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462 } |
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463 |
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464 void CPhysicalLinkMetrics::HandleReadLinkQualityCompleteEvent(const TReadLinkQualityCompleteEvent& aEvent) |
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465 { |
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466 LOG_FUNC |
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467 TUint8 result = 0; |
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468 TInt err = CHciUtil::SymbianErrorCode(aEvent.ErrorCode()); |
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469 if (err == KErrNone) |
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470 { |
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471 result = aEvent.LinkQuality(); |
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472 } |
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473 |
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474 // Notify all SAPs via IoctlComplete, with the result or an error code |
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475 |
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476 if (err != KErrNone || static_cast<TInt>(result) != iLinkQuality.PLMValue()()) |
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477 { |
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478 iLinkQuality.UpdatePLMValue(result); |
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479 // Notify all SAPs via IoctlComplete, with the result or an error code |
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480 iLinkQuality.NotifyQueuedProxySAPs(err, KLMReadLinkQualityIoctl, &iLinkQuality.PLMValue()); |
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481 } |
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482 iLinkQuality.UpdatePLMState(ECommandBlockedForTimer); |
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483 QueueNextPLMPollIfNotAlreadyQueued(); |
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484 } |
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485 |
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486 void CPhysicalLinkMetrics::HandleReadRssiCompleteEvent(const TReadRSSICompleteEvent& aEvent) |
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487 { |
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488 LOG_FUNC |
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489 TUint8 result = 0; |
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490 TInt err = CHciUtil::SymbianErrorCode(aEvent.ErrorCode()); |
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491 if (err == KErrNone) |
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492 { |
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493 result = aEvent.RSSI().RSSI(); |
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494 } |
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495 |
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496 if (err != KErrNone || static_cast<TInt>(result) != iRssi.PLMValue()()) |
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497 { |
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498 iRssi.UpdatePLMValue(result); |
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499 // Notify all SAPs via IoctlComplete, with the result or an error code |
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500 iRssi.NotifyQueuedProxySAPs(err, KLMReadRssiIoctl, &iRssi.PLMValue()); |
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501 } |
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502 iRssi.UpdatePLMState(ECommandBlockedForTimer); |
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503 QueueNextPLMPollIfNotAlreadyQueued(); |
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504 } |
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505 |
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506 void CPhysicalLinkMetrics::HandleReadTransmitPowerLevelCompleteEvent(const TReadTransmitPowerLevelCompleteEvent& aEvent) |
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507 { |
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508 LOG_FUNC |
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509 TUint8 result = 0; |
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510 TInt err = CHciUtil::SymbianErrorCode(aEvent.ErrorCode()); |
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511 if (err == KErrNone) |
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512 { |
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513 result = aEvent.TransmitPowerLevel(); |
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514 } |
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515 |
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516 if (err != KErrNone || static_cast<TInt>(result) != iTransmitPowerLevel.PLMValue()()) |
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517 { |
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518 iTransmitPowerLevel.UpdatePLMValue(result); |
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519 // Notify all SAPs via IoctlComplete, with the result or an error code |
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520 iTransmitPowerLevel.NotifyQueuedProxySAPs(err, KLMReadCurrentTransmitPowerLevelIoctl, &iTransmitPowerLevel.PLMValue()); |
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521 } |
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522 iTransmitPowerLevel.UpdatePLMState(ECommandBlockedForTimer); |
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523 QueueNextPLMPollIfNotAlreadyQueued(); |
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524 } |
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525 |
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526 /*static*/ TInt CPhysicalLinkMetrics::PLMEventReceived(TAny* aThis) |
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527 { |
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528 static_cast<CPhysicalLinkMetrics*>(aThis)->iPLMTimerQueued = EFalse; |
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529 |
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530 /*Send the PLM commands if there are any outstanding requests*/ |
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531 static_cast<CPhysicalLinkMetrics*>(aThis)->DoRssiTimerEvent(); |
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532 static_cast<CPhysicalLinkMetrics*>(aThis)->DoLinkQualityTimerEvent(); |
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533 static_cast<CPhysicalLinkMetrics*>(aThis)->DoFailedContactCounterTimerEvent(); |
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534 static_cast<CPhysicalLinkMetrics*>(aThis)->DoTransmitPowerLevelTimerEvent(); |
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535 |
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536 return KErrNone; |
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537 } |
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538 |
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539 |
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540 void CPhysicalLinkMetrics::DoRssiTimerEvent() |
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541 { |
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542 LOG_FUNC |
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543 iRssi.UpdatePLMState(ECommandIdle); |
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544 if (iRssi.AnyOutstandingClientRequest()) |
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545 { |
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546 ReadRssiCommand(); |
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547 } |
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548 } |
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549 |
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550 void CPhysicalLinkMetrics::DoLinkQualityTimerEvent() |
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551 { |
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552 LOG_FUNC |
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553 iLinkQuality.UpdatePLMState(ECommandIdle); |
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554 if (iLinkQuality.AnyOutstandingClientRequest()) |
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555 { |
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556 ReadLinkQualityCommand(); |
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557 } |
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558 } |
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559 |
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560 void CPhysicalLinkMetrics::DoFailedContactCounterTimerEvent() |
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561 { |
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562 LOG_FUNC |
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563 iFailedContactCounter.UpdatePLMState(ECommandIdle); |
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564 if (iFailedContactCounter.AnyOutstandingClientRequest()) |
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565 { |
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566 ReadFailedContactCounterCommand(); |
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567 } |
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568 } |
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569 |
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570 void CPhysicalLinkMetrics::DoTransmitPowerLevelTimerEvent() |
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571 { |
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572 LOG_FUNC |
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573 iTransmitPowerLevel.UpdatePLMState(ECommandIdle); |
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574 if (iTransmitPowerLevel.AnyOutstandingClientRequest()) |
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575 { |
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576 ReadTransmitPowerLevelCommand(); |
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577 } |
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578 } |
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579 |
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580 void CPhysicalLinkMetrics::RemovePLMCommands() |
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581 { |
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582 LOG_FUNC |
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583 iCmdController.MhcqRemoveAllCommands(*this); |
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584 } |
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585 |
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586 |
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587 /* A common timer is used for all the 4 PLMs. Which ever PLM command completes first will start the timer |
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588 * for the subsequent requests. When the timer completes we will send all the PLM commands (for which there are |
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589 * outstanding requests) and start the timer again with the first completed PLM command. |
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590 */ |
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591 void CPhysicalLinkMetrics::QueueNextPLMPollIfNotAlreadyQueued() |
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592 { |
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593 LOG_FUNC |
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594 TUint sniffInterval = iParent.GetSniffInterval(); |
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595 if(!iPLMTimerQueued) |
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596 { |
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597 //If we are in sniff mode (i.e. sniff interval is greater than zero) and the sniff interval is greater |
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598 // then default PLM poll interval then PLM commands should be sent after every sniff interval only |
|
599 if( sniffInterval > KPLMPollInterval) |
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600 { |
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601 BTSocketTimer::Queue(sniffInterval, iPLMTimer); |
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602 } |
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603 else |
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604 { |
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605 BTSocketTimer::Queue(KPLMPollInterval, iPLMTimer); |
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606 } |
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607 iPLMTimerQueued = ETrue; |
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608 } |
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609 } |
|
610 |
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611 void CPhysicalLinkMetrics::RemovePLMPoll() |
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612 { |
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613 LOG_FUNC |
|
614 //It is safe to call remove even if the timer is already removed. |
|
615 BTSocketTimer::Remove(iPLMTimer); |
|
616 iPLMTimerQueued = EFalse; |
|
617 } |
|
618 |