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1 /* |
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2 * Copyright (c) 2002 - 2007 Nokia Corporation and/or its subsidiary(-ies). |
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3 * All rights reserved. |
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4 * This component and the accompanying materials are made available |
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5 * under the terms of "Eclipse Public License v1.0" |
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6 * which accompanies this distribution, and is available |
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7 * at the URL "http://www.eclipse.org/legal/epl-v10.html". |
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8 * |
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9 * Initial Contributors: |
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10 * Nokia Corporation - initial contribution. |
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11 * |
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12 * Contributors: |
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13 * |
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14 * Description: xmppsettingsfetchermtCases.cpp |
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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 |
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20 // [INCLUDE FILES] - do not remove |
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21 #include <e32math.h> |
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22 #include "xmppsettingsfetchermt.h" |
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23 #include "xmppsettingsfetcher.h" |
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24 #include "xmppparameters.h" |
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25 |
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26 // EXTERNAL DATA STRUCTURES |
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27 //extern ?external_data; |
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28 |
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29 // EXTERNAL FUNCTION PROTOTYPES |
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30 //extern ?external_function( ?arg_type,?arg_type ); |
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31 |
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32 // CONSTANTS |
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33 //const ?type ?constant_var = ?constant; |
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34 |
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35 // MACROS |
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36 //#define ?macro ?macro_def |
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37 |
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38 // LOCAL CONSTANTS AND MACROS |
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39 //const ?type ?constant_var = ?constant; |
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40 //#define ?macro_name ?macro_def |
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41 |
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42 // MODULE DATA STRUCTURES |
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43 //enum ?declaration |
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44 //typedef ?declaration |
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45 |
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46 // LOCAL FUNCTION PROTOTYPES |
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47 //?type ?function_name( ?arg_type, ?arg_type ); |
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48 |
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49 // FORWARD DECLARATIONS |
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50 //class ?FORWARD_CLASSNAME; |
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51 |
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52 // ============================= LOCAL FUNCTIONS =============================== |
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53 |
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54 // ----------------------------------------------------------------------------- |
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55 // ?function_name ?description. |
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56 // ?description |
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57 // Returns: ?value_1: ?description |
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58 // ?value_n: ?description_line1 |
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59 // ?description_line2 |
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60 // ----------------------------------------------------------------------------- |
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61 // |
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62 /* |
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63 ?type ?function_name( |
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64 ?arg_type arg, // ?description |
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65 ?arg_type arg) // ?description |
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66 { |
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67 |
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68 ?code // ?comment |
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69 |
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70 // ?comment |
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71 ?code |
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72 } |
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73 */ |
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74 |
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75 // ============================ MEMBER FUNCTIONS =============================== |
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76 |
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77 // ----------------------------------------------------------------------------- |
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78 // Cxmppsettingsfetchermt::Case |
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79 // Returns a test case by number. |
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80 // |
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81 // This function contains an array of all available test cases |
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82 // i.e pair of case name and test function. If case specified by parameter |
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83 // aCaseNumber is found from array, then that item is returned. |
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84 // |
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85 // The reason for this rather complicated function is to specify all the |
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86 // test cases only in one place. It is not necessary to understand how |
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87 // function pointers to class member functions works when adding new test |
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88 // cases. See function body for instructions how to add new test case. |
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89 // ----------------------------------------------------------------------------- |
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90 // |
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91 const TCaseInfo Cxmppsettingsfetchermt::Case ( |
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92 const TInt aCaseNumber ) const |
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93 { |
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94 |
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95 /** |
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96 * To add new test cases, implement new test case function and add new |
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97 * line to KCases array specify the name of the case and the function |
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98 * doing the test case |
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99 * In practice, do following |
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100 * 1) Make copy of existing test case function and change its name |
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101 * and functionality. Note that the function must be added to |
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102 * xmppsettingsfetchermt.cpp file and to xmppsettingsfetchermt.h |
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103 * header file. |
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104 * |
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105 * 2) Add entry to following KCases array either by using: |
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106 * |
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107 * 2.1: FUNCENTRY or ENTRY macro |
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108 * ENTRY macro takes two parameters: test case name and test case |
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109 * function name. |
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110 * |
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111 * FUNCENTRY macro takes only test case function name as a parameter and |
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112 * uses that as a test case name and test case function name. |
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113 * |
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114 * Or |
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115 * |
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116 * 2.2: OOM_FUNCENTRY or OOM_ENTRY macro. Note that these macros are used |
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117 * only with OOM (Out-Of-Memory) testing! |
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118 * |
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119 * OOM_ENTRY macro takes five parameters: test case name, test case |
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120 * function name, TBool which specifies is method supposed to be run using |
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121 * OOM conditions, TInt value for first heap memory allocation failure and |
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122 * TInt value for last heap memory allocation failure. |
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123 * |
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124 * OOM_FUNCENTRY macro takes test case function name as a parameter and uses |
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125 * that as a test case name, TBool which specifies is method supposed to be |
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126 * run using OOM conditions, TInt value for first heap memory allocation |
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127 * failure and TInt value for last heap memory allocation failure. |
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128 */ |
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129 |
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130 static TCaseInfoInternal const KCases[] = |
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131 { |
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132 // [test cases entries] - do not remove |
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133 |
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134 // NOTE: When compiled to GCCE, there must be Classname:: |
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135 // declaration in front of the method name, e.g. |
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136 // Cxmppsettingsfetchermt::PrintTest. Otherwise the compiler |
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137 // gives errors. |
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138 |
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139 ENTRY( "write and read valid settings", Cxmppsettingsfetchermt::SetAndReadSettingsL ), |
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140 ENTRY( "read unexisting settings", Cxmppsettingsfetchermt::ReadUnexistingSettingsL ), |
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141 ENTRY( "write and read incomplete settings", Cxmppsettingsfetchermt::ReadIncompleteSettingsL ), |
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142 ENTRY( "descriptor values test", Cxmppsettingsfetchermt::ReadDescSettingsL ), |
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143 ENTRY( "integer values test", Cxmppsettingsfetchermt::ReadIntSettingsL ), |
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144 |
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145 // FUNCENTRY( Cxmppsettingsfetchermt::PrintTest ), |
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146 |
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147 // Example how to use OOM functionality |
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148 //OOM_ENTRY( "Loop test with OOM", Cxmppsettingsfetchermt::LoopTest, ETrue, 2, 3), |
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149 //OOM_FUNCENTRY( Cxmppsettingsfetchermt::PrintTest, ETrue, 1, 3 ), |
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150 }; |
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151 |
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152 // Verify that case number is valid |
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153 if( (TUint) aCaseNumber >= sizeof( KCases ) / |
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154 sizeof( TCaseInfoInternal ) ) |
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155 { |
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156 // Invalid case, construct empty object |
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157 TCaseInfo null( (const TText*) L"" ); |
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158 null.iMethod = NULL; |
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159 null.iIsOOMTest = EFalse; |
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160 null.iFirstMemoryAllocation = 0; |
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161 null.iLastMemoryAllocation = 0; |
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162 return null; |
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163 } |
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164 |
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165 // Construct TCaseInfo object and return it |
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166 TCaseInfo tmp ( KCases[ aCaseNumber ].iCaseName ); |
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167 tmp.iMethod = KCases[ aCaseNumber ].iMethod; |
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168 tmp.iIsOOMTest = KCases[ aCaseNumber ].iIsOOMTest; |
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169 tmp.iFirstMemoryAllocation = KCases[ aCaseNumber ].iFirstMemoryAllocation; |
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170 tmp.iLastMemoryAllocation = KCases[ aCaseNumber ].iLastMemoryAllocation; |
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171 return tmp; |
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172 |
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173 } |
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174 |
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175 // ----------------------------------------------------------------------------- |
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176 // Cxmppsettingsfetchermt::LoopTest |
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177 // Another printing to UI test. |
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178 // ----------------------------------------------------------------------------- |
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179 // |
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180 TInt Cxmppsettingsfetchermt::SetAndReadSettingsL( TTestResult& aResult ) |
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181 { |
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182 TUint32 settingId = 0; |
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183 CXmppSettingsApi* api = CXmppSettingsApi::NewLC(); |
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184 |
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185 TRAPD( error, api->CreateSettingsRecordL( settingId ) ); |
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186 User::LeaveIfError( error ); |
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187 |
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188 WriteSettingsL( api, settingId, EPositiveTest ); |
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189 CleanupStack::PopAndDestroy( api ); |
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190 |
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191 CXmppParameters* xmppParams = CXmppParameters::NewL(); |
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192 CleanupStack::PushL( xmppParams ); |
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193 CXmppSettingsFetcher::ReadSettingsL( settingId, *xmppParams ); |
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194 |
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195 //verify that all settings read are correct |
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196 TBool verify = VerifySettingsL( xmppParams, settingId, EPositiveTest ); |
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197 CleanupStack::PopAndDestroy( xmppParams ); |
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198 |
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199 // Sets test case result and description(Maximum size is KStifMaxResultDes) |
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200 if(verify) |
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201 aResult.SetResult( KErrNone, KTestcasePassed ); |
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202 else |
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203 aResult.SetResult( KErrGeneral, KVerificationFailed ); |
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204 |
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205 // Case was executed |
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206 return KErrNone; |
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207 } |
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208 |
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209 |
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210 TInt Cxmppsettingsfetchermt::ReadUnexistingSettingsL( TTestResult& aResult ) |
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211 { |
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212 CXmppParameters* xmppParams = CXmppParameters::NewL(); |
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213 CleanupStack::PushL( xmppParams ); |
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214 CXmppSettingsFetcher::ReadSettingsL( 9999, *xmppParams ); //assuming 9999 records have not been created :) |
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215 |
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216 // Sets test case result and description(Maximum size is KStifMaxResultDes) |
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217 CleanupStack::PopAndDestroy( xmppParams ); |
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218 aResult.SetResult( KErrNone, KTestcasePassed ); |
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219 |
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220 // Case was executed |
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221 return KErrNone; |
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222 } |
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223 |
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224 |
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225 TInt Cxmppsettingsfetchermt::ReadIncompleteSettingsL( TTestResult& aResult ) |
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226 { |
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227 TUint32 settingId = 0; |
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228 CXmppSettingsApi* api = CXmppSettingsApi::NewLC(); |
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229 |
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230 TRAPD( error, api->CreateSettingsRecordL( settingId ) ); |
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231 User::LeaveIfError( error ); |
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232 |
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233 WriteIncompleteSettingsL( api, settingId ); |
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234 CleanupStack::PopAndDestroy( api ); |
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235 |
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236 CXmppParameters* xmppParams = CXmppParameters::NewL(); |
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237 CleanupStack::PushL( xmppParams ); |
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238 TRAP( error, CXmppSettingsFetcher::ReadSettingsL( settingId, *xmppParams ) ); |
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239 CleanupStack::PopAndDestroy( xmppParams ); |
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240 |
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241 // Sets test case result and description(Maximum size is KStifMaxResultDes) |
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242 if( error == KErrNotFound ) |
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243 aResult.SetResult( KErrNone, KTestcasePassed ); |
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244 else |
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245 aResult.SetResult( KErrGeneral, KTestcaseFailed ); |
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246 |
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247 // Case was executed |
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248 return KErrNone; |
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249 } |
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250 |
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251 |
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252 TInt Cxmppsettingsfetchermt::ReadDescSettingsL( TTestResult& aResult ) |
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253 { |
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254 TUint32 settingId = 0; |
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255 CXmppSettingsApi* api = CXmppSettingsApi::NewLC(); |
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256 |
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257 TRAPD( error, api->CreateSettingsRecordL( settingId ) ); |
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258 User::LeaveIfError( error ); |
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259 |
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260 WriteSettingsL( api, settingId, EDescriptorTest ); |
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261 CleanupStack::PopAndDestroy( api ); |
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262 |
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263 CXmppParameters* xmppParams = CXmppParameters::NewL(); |
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264 CleanupStack::PushL( xmppParams ); |
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265 CXmppSettingsFetcher::ReadSettingsL( settingId, *xmppParams ); |
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266 |
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267 //verify that all settings read are correct |
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268 TBool verify = VerifySettingsL( xmppParams, settingId, EDescriptorTest ); |
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269 CleanupStack::PopAndDestroy( xmppParams ); |
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270 |
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271 // Sets test case result and description(Maximum size is KStifMaxResultDes) |
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272 if(verify) |
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273 aResult.SetResult( KErrNone, KTestcasePassed ); |
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274 else |
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275 aResult.SetResult( KErrGeneral, KVerificationFailed ); |
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276 |
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277 // Case was executed |
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278 return KErrNone; |
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279 } |
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280 |
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281 |
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282 TInt Cxmppsettingsfetchermt::ReadIntSettingsL( TTestResult& aResult ) |
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283 { |
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284 TUint32 settingId = 0; |
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285 CXmppSettingsApi* api = CXmppSettingsApi::NewLC(); |
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286 |
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287 TRAPD( error, api->CreateSettingsRecordL( settingId ) ); |
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288 User::LeaveIfError( error ); |
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289 |
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290 WriteSettingsL( api, settingId, EIntegerTest ); |
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291 CleanupStack::PopAndDestroy( api ); |
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292 |
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293 CXmppParameters* xmppParams = CXmppParameters::NewL(); |
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294 CleanupStack::PushL( xmppParams ); |
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295 CXmppSettingsFetcher::ReadSettingsL( settingId, *xmppParams ); |
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296 |
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297 //verify that all settings read are correct |
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298 TBool verify = VerifySettingsL( xmppParams, settingId, EIntegerTest ); |
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299 CleanupStack::PopAndDestroy( xmppParams ); |
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300 |
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301 // Sets test case result and description(Maximum size is KStifMaxResultDes) |
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302 if(verify) |
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303 aResult.SetResult( KErrNone, KTestcasePassed ); |
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304 else |
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305 aResult.SetResult( KErrGeneral, KVerificationFailed ); |
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306 |
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307 // Case was executed |
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308 return KErrNone; |
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309 } |
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310 |
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311 |
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312 void Cxmppsettingsfetchermt::WriteSettingsL( CXmppSettingsApi* aApi, TUint32 aSettingId, TTestCase aTestCase ) |
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313 { |
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314 TInt error = KErrNone; |
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315 |
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316 TRAP( error, aApi->SetParamL( aSettingId, |
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317 XmppParams::KXmppParamHttpsProxyServerPort(), |
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318 httpsProxyPort ) ); |
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319 if( aTestCase == EIntegerTest ) //integer test |
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320 { |
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321 TRAP( error, aApi->SetParamL( aSettingId, |
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322 XmppParams::KXmppParamServerPort(), |
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323 portNegative ) ); //negative value |
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324 TRAP( error, aApi->SetParamL( aSettingId, |
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325 XmppParams::KXmppParamSnapId(), |
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326 iapIdZero ) ); //zero |
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327 } |
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328 else |
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329 { |
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330 TRAP( error, aApi->SetParamL( aSettingId, |
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331 XmppParams::KXmppParamServerPort(), |
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332 port ) ); |
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333 TRAP( error, aApi->SetParamL( aSettingId, |
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334 XmppParams::KXmppParamSnapId(), |
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335 iapId ) ); |
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336 } |
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337 |
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338 // buffers |
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339 TRAP( error, aApi->SetParamL( aSettingId, |
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340 XmppParams::KXmppParamXmppServerAddress(), |
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341 KXmppServerAddress ) ); |
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342 |
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343 if( aTestCase == EDescriptorTest ) //descriptor test |
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344 { |
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345 TRAP( error, aApi->SetParamL( aSettingId, |
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346 XmppParams::KXmppParamUsername(), |
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347 KNullUsername ) ); //empty string |
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348 TRAP( error, aApi->SetParamL( aSettingId, |
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349 XmppParams::KXmppParamPassword(), |
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350 KNullDesC ) ); //null descriptor |
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351 } |
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352 else |
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353 { |
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354 TRAP( error, aApi->SetParamL( aSettingId, |
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355 XmppParams::KXmppParamUsername(), |
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356 KUsername ) ); |
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357 TRAP( error, aApi->SetParamL( aSettingId, |
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358 XmppParams::KXmppParamPassword(), |
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359 KPassword ) ); |
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360 } |
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361 |
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362 // gabble specific things......... |
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363 TRAP( error, aApi->SetParamL( aSettingId, |
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364 XmppParams::KXmppParamResource(), |
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365 KResouceText ) ); |
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366 TRAP( error, aApi->SetParamL( aSettingId, |
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367 XmppParams::KXmppParamHttpsProxyServerAddress(), |
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368 KHttpsProxyServerAddressText ) ); |
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369 TRAP( error, aApi->SetParamL( aSettingId, |
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370 XmppParams::KXmppParamAlais(), |
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371 KAliasText ) ); |
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372 TRAP( error, aApi->SetParamL( aSettingId, |
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373 XmppParams::KXmppParamOldSSLRequired(), |
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374 oldSSL ) ); |
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375 TRAP( error, aApi->SetParamL( aSettingId, |
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376 XmppParams::KXmppParamRegisterRequired(), |
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377 resigter ) ); |
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378 TRAP( error, aApi->SetParamL( aSettingId, |
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379 XmppParams::KXmppParamConnMgrBus(), |
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380 KConnMgrBus ) ); |
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381 |
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382 TRAP( error, aApi->SetParamL( aSettingId, |
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383 XmppParams::KXmppParamConnMgrPath(), |
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384 KConnMgrPath )); |
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385 |
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386 TRAP( error, aApi->SetParamL( aSettingId, |
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387 XmppParams::KXmppParamProtocol(), |
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388 KParamProtocol )); |
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389 |
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390 } |
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391 |
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392 |
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393 TBool Cxmppsettingsfetchermt::VerifySettingsL( CXmppParameters* aXmppParams, TUint32 aSettingsId, TTestCase aTestCase ) |
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394 { |
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395 switch (aTestCase) |
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396 { |
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397 case EPositiveTest: |
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398 if ( |
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399 ( aXmppParams->SettingsId() == aSettingsId ) && |
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400 ( aXmppParams->ServerPort() == port ) && |
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401 ( aXmppParams->ProxyPort() == httpsProxyPort ) && |
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402 ( aXmppParams->IapId() == iapId ) && |
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403 ( aXmppParams->ServerAddress() == KXmppServerAddress ) && |
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404 ( aXmppParams->UserName() == KUsername ) && |
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405 ( aXmppParams->Passwd() == KPassword ) && |
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406 ( aXmppParams->Resource() == KResouceText ) && |
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407 ( aXmppParams->ProxyServer() == KHttpsProxyServerAddressText ) && |
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408 ( aXmppParams->Ssl() == oldSSL ) |
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409 ) |
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410 return ETrue; |
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411 else |
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412 return EFalse; |
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413 case EDescriptorTest: |
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414 if ( |
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415 ( aXmppParams->SettingsId() == aSettingsId ) && |
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416 ( aXmppParams->ServerPort() == port ) && |
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417 ( aXmppParams->ProxyPort() == httpsProxyPort ) && |
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418 ( aXmppParams->IapId() == iapId ) && |
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419 ( aXmppParams->ServerAddress() == KXmppServerAddress ) && |
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420 ( aXmppParams->UserName() == KNullUsername ) && //empty string |
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421 ( aXmppParams->Passwd() == KNullDesC ) && //null descriptor |
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422 ( aXmppParams->Resource() == KResouceText ) && |
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423 ( aXmppParams->ProxyServer() == KHttpsProxyServerAddressText ) && |
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424 ( aXmppParams->Ssl() == oldSSL ) |
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425 ) |
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426 return ETrue; |
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427 else |
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428 return EFalse; |
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429 case EIntegerTest: |
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430 if ( |
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431 ( aXmppParams->SettingsId() == aSettingsId ) && |
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432 ( aXmppParams->ServerPort() == portNegative ) && //negative |
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433 ( aXmppParams->ProxyPort() == httpsProxyPort ) && |
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434 ( aXmppParams->IapId() == iapIdZero ) && //zero |
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435 ( aXmppParams->ServerAddress() == KXmppServerAddress ) && |
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436 ( aXmppParams->UserName() == KUsername ) && |
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437 ( aXmppParams->Passwd() == KPassword ) && |
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438 ( aXmppParams->Resource() == KResouceText ) && |
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439 ( aXmppParams->ProxyServer() == KHttpsProxyServerAddressText ) && |
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440 ( aXmppParams->Ssl() == oldSSL ) |
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441 ) |
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442 return ETrue; |
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443 else |
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444 return EFalse; |
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445 } |
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446 return EFalse; |
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447 } |
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448 |
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449 |
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450 void Cxmppsettingsfetchermt::WriteIncompleteSettingsL( CXmppSettingsApi* aApi, TUint32 aSettingId ) |
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451 { |
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452 TInt error = KErrNone; |
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453 |
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454 TRAP( error, aApi->SetParamL( aSettingId, |
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455 XmppParams::KXmppParamServerPort(), |
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456 port ) ); |
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457 |
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458 // buffers |
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459 TRAP( error, aApi->SetParamL( aSettingId, |
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460 XmppParams::KXmppParamXmppServerAddress(), |
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461 KXmppServerAddress ) ); |
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462 TRAP( error, aApi->SetParamL( aSettingId, |
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463 XmppParams::KXmppParamUsername(), |
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464 KUsername ) ); |
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465 TRAP( error, aApi->SetParamL( aSettingId, |
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466 XmppParams::KXmppParamPassword(), |
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467 KPassword ) ); |
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468 // gabble specific things......... |
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469 TRAP( error, aApi->SetParamL( aSettingId, |
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470 XmppParams::KXmppParamHttpsProxyServerAddress(), |
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471 KHttpsProxyServerAddressText ) ); |
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472 TRAP( error, aApi->SetParamL( aSettingId, |
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473 XmppParams::KXmppParamOldSSLRequired(), |
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474 oldSSL ) ); |
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475 } |
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476 |
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477 // ----------------------------------------------------------------------------- |
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478 // ?classname::?member_function |
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479 // ?implementation_description |
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480 // (other items were commented in a header). |
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481 // ----------------------------------------------------------------------------- |
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482 // |
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483 /* |
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484 ?type ?classname::?member_function( |
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485 ?arg_type arg, |
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486 ?arg_type arg ) |
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487 { |
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488 |
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489 ?code |
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490 |
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491 } |
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492 */ |
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493 |
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494 // ========================== OTHER EXPORTED FUNCTIONS ========================= |
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495 |
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496 // ----------------------------------------------------------------------------- |
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497 // ?function_name implements... |
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498 // ?implementation_description. |
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499 // Returns: ?value_1: ?description |
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500 // ?value_n: ?description |
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501 // ?description |
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502 // ----------------------------------------------------------------------------- |
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503 // |
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504 /* |
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505 ?type ?function_name( |
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506 ?arg_type arg, // ?description |
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507 ?arg_type arg ) // ?description |
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508 { |
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509 |
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510 ?code |
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511 |
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512 } |
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513 */ |
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514 // [End of File] - do not remove |