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1 // Copyright (c) 2008-2009 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 the License "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 // Hardware Configuration Respoitory Test Application |
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15 // |
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16 |
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17 #define __E32TEST_EXTENSION__ |
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18 #include <e32test.h> |
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19 #include <e32rom.h> |
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20 #include <e32svr.h> |
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21 #include <e32hashtab.h> |
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22 #include <e32base.h> |
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23 #include "d_hcrsim.h" |
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24 #include "d_hcrsim_testdata.h" |
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25 #include "hcr_uids.h" |
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26 |
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27 _LIT8(KTestFileRepos, "filerepos.dat"); |
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28 _LIT8(KTestNandRepos, "nandrepos.dat"); |
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29 _LIT8(KTestCorrupt1, "corrupt1.dat"); |
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30 _LIT8(KTestCorrupt2, "corrupt2.dat"); |
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31 _LIT8(KTestEmpty, "empty.dat"); |
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32 _LIT8(KTestMegaLarge1, "megalarge1.dat"); |
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33 _LIT8(KTestMegaLarge2, "megalarge2.dat"); |
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34 _LIT8(KTestClearRepos, ""); |
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35 |
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36 |
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37 |
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38 RTest test(_L("T_HCR")); |
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39 RHcrSimTestChannel HcrSimTest; |
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40 |
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41 //Helper function to compare two SSettingId parameters. It's used in |
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42 //GetMultipleWord settings array |
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43 TInt CompareEntries (const SSettingC& a1, const SSettingC& a2) |
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44 { |
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45 if (a1.iName.iId.iCat > a2.iName.iId.iCat) |
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46 return (1); |
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47 |
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48 if (a1.iName.iId.iCat < a2.iName.iId.iCat) |
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49 return (-1); |
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50 |
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51 // Categories are the same at this point, check keys. |
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52 if (a1.iName.iId.iKey > a2.iName.iId.iKey) |
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53 return (1); |
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54 |
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55 if (a1.iName.iId.iKey < a2.iName.iId.iKey) |
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56 return (-1); |
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57 |
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58 // Both Categories and jeys are the same here. |
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59 return (0); |
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60 } |
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61 |
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62 |
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63 |
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64 void HcrSimGetSettings(SSettingC* aRepository, TUint aNumberOfSettings) |
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65 { |
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66 test.Next(_L("GetSettings")); |
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67 TInt r; |
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68 SSettingC* setting; |
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69 for (setting = aRepository; setting < aRepository + aNumberOfSettings; setting++) |
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70 { |
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71 TSettingId id(setting->iName.iId.iCat, setting->iName.iId.iKey); |
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72 test.Printf(_L("(0x%08x, 0x%08x)\n"), id.iCat, id.iKey); |
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73 switch (setting->iName.iType) |
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74 { |
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75 case ETypeInt32: |
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76 { |
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77 TInt32 val; |
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78 r = HcrSimTest.GetInt(id, val); |
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79 test_KErrNone(r); |
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80 test_Equal(setting->iValue.iLit.iInt32, val); |
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81 break; |
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82 } |
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83 case ETypeInt16: |
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84 { |
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85 TInt16 val; |
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86 r = HcrSimTest.GetInt(id, val); |
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87 test_KErrNone(r); |
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88 test_Equal(setting->iValue.iLit.iInt16, val); |
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89 break; |
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90 } |
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91 case ETypeInt8: |
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92 { |
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93 TInt8 val; |
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94 r = HcrSimTest.GetInt(id, val); |
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95 test_KErrNone(r); |
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96 test_Equal(setting->iValue.iLit.iInt8, val); |
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97 break; |
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98 } |
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99 case ETypeBool: |
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100 { |
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101 TBool val; |
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102 r = HcrSimTest.GetBool(id, val); |
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103 test_KErrNone(r); |
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104 test_Equal(setting->iValue.iLit.iBool, val); |
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105 break; |
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106 } |
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107 case ETypeUInt32: |
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108 { |
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109 TUint32 val; |
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110 r = HcrSimTest.GetUInt(id, val); |
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111 test_KErrNone(r); |
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112 test_Equal(setting->iValue.iLit.iUInt32, val); |
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113 break; |
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114 } |
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115 case ETypeUInt16: |
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116 { |
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117 TUint16 val; |
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118 r = HcrSimTest.GetUInt(id, val); |
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119 test_KErrNone(r); |
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120 test_Equal(setting->iValue.iLit.iUInt16, val); |
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121 break; |
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122 } |
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123 case ETypeUInt8: |
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124 { |
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125 TUint8 val; |
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126 r = HcrSimTest.GetUInt(id, val); |
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127 test_KErrNone(r); |
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128 test_Equal(setting->iValue.iLit.iUInt8, val); |
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129 break; |
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130 } |
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131 case ETypeLinAddr: |
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132 { |
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133 TLinAddr val; |
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134 r = HcrSimTest.GetLinAddr(id, val); |
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135 test_KErrNone(r); |
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136 test_Equal(setting->iValue.iLit.iAddress, val); |
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137 break; |
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138 } |
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139 case ETypeBinData: |
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140 { |
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141 TBuf8<KMaxSettingLength> dval; |
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142 TUint8* pval; |
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143 pval = (TUint8*) User::Alloc(setting->iName.iLen); |
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144 test_NotNull(pval); |
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145 // |
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146 r = HcrSimTest.GetData(id, dval); |
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147 test_KErrNone(r); |
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148 // |
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149 TUint16 actuallength; |
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150 r = HcrSimTest.GetData(id, setting->iName.iLen, pval, actuallength); |
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151 test_KErrNone(r); |
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152 // |
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153 test_Equal(0, Mem::Compare( |
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154 setting->iValue.iPtr.iData, setting->iName.iLen, |
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155 pval, actuallength)); |
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156 test_Equal(0, Mem::Compare( |
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157 setting->iValue.iPtr.iData, setting->iName.iLen, |
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158 dval.Ptr(), dval.Length())); |
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159 User::Free(pval); |
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160 break; |
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161 } |
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162 case ETypeText8: |
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163 { |
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164 TBuf8<KMaxSettingLength> dval; |
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165 TText8* pval; |
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166 pval = (TText8*) User::Alloc(setting->iName.iLen); |
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167 test_NotNull(pval); |
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168 // |
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169 r = HcrSimTest.GetString(id, dval); |
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170 test_KErrNone(r); |
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171 // |
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172 TUint16 actuallength; |
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173 r = HcrSimTest.GetString(id, setting->iName.iLen, pval, actuallength); |
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174 test_KErrNone(r); |
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175 // |
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176 test_Equal(0, Mem::Compare( |
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177 setting->iValue.iPtr.iString8, setting->iName.iLen, |
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178 pval, actuallength)); |
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179 test_Equal(0, Mem::Compare( |
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180 setting->iValue.iPtr.iString8, setting->iName.iLen, |
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181 dval.Ptr(), dval.Length())); |
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182 User::Free(pval); |
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183 break; |
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184 } |
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185 case ETypeArrayInt32: |
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186 { |
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187 TInt32* pval; |
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188 pval = (TInt32*) User::Alloc(setting->iName.iLen); |
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189 test_NotNull(pval); |
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190 // |
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191 TUint16 actuallength; |
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192 r = HcrSimTest.GetArray(id, setting->iName.iLen, pval, actuallength); |
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193 test_KErrNone(r); |
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194 // |
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195 test_Equal(setting->iName.iLen, actuallength); |
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196 TInt32* pexpected = setting->iValue.iPtr.iArrayInt32; |
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197 TUint i; |
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198 for (i = 0; i < setting->iName.iLen / sizeof(TInt32); i++) |
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199 { |
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200 test_Equal(*(pexpected + i), *(pval + i)); |
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201 } |
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202 User::Free(pval); |
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203 break; |
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204 } |
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205 case ETypeArrayUInt32: |
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206 { |
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207 TUint32* pval; |
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208 pval = (TUint32*) User::Alloc(setting->iName.iLen); |
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209 test_NotNull(pval); |
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210 // |
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211 TUint16 actuallength; |
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212 r = HcrSimTest.GetArray(id, setting->iName.iLen, pval, actuallength); |
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213 test_KErrNone(r); |
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214 // |
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215 test_Equal(setting->iName.iLen, actuallength); |
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216 TUint32* pexpected = setting->iValue.iPtr.iArrayUInt32; |
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217 TUint i; |
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218 for (i = 0; i < setting->iName.iLen / sizeof(TUint32); i++) |
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219 { |
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220 test_Equal(*(pexpected + i), *(pval + i)); |
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221 } |
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222 User::Free(pval); |
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223 break; |
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224 } |
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225 case ETypeInt64: |
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226 { |
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227 TInt64 val; |
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228 r = HcrSimTest.GetInt(id, val); |
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229 test_KErrNone(r); |
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230 test_Equal(*setting->iValue.iPtr.iInt64, val); |
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231 break; |
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232 } |
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233 case ETypeUInt64: |
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234 { |
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235 TUint64 val; |
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236 r = HcrSimTest.GetUInt(id, val); |
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237 test_KErrNone(r); |
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238 test_Equal(*setting->iValue.iPtr.iUInt64, val); |
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239 break; |
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240 } |
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241 default: |
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242 test(EFalse); |
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243 } |
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244 } |
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245 } |
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246 |
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247 void HcrSimGetSettingsNegative(SSettingC* aRepository, TUint aNumberOfSettings) |
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248 { |
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249 test.Next(_L("GetSettingsNegative")); |
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250 TInt r; |
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251 SSettingC* setting; |
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252 for (setting = aRepository; setting < aRepository + aNumberOfSettings; setting++) |
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253 { |
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254 TSettingId id(setting->iName.iId.iCat, setting->iName.iId.iKey); |
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255 test.Printf(_L("(0x%08x, 0x%08x)\n"), id.iCat, id.iKey); |
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256 if (setting->iName.iType != ETypeInt32) |
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257 { |
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258 TInt32 val; |
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259 r = HcrSimTest.GetInt(id, val); |
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260 test_Equal(KErrArgument, r); |
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261 } |
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262 if (setting->iName.iType != ETypeInt16) |
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263 { |
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264 TInt16 val; |
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265 r = HcrSimTest.GetInt(id, val); |
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266 test_Equal(KErrArgument, r); |
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267 } |
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268 if (setting->iName.iType != ETypeInt8) |
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269 { |
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270 TInt8 val; |
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271 r = HcrSimTest.GetInt(id, val); |
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272 test_Equal(KErrArgument, r); |
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273 } |
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274 if (setting->iName.iType != ETypeBool) |
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275 { |
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276 TBool val; |
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277 r = HcrSimTest.GetBool(id, val); |
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278 test_Equal(KErrArgument, r); |
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279 } |
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280 if (setting->iName.iType != ETypeUInt32) |
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281 { |
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282 TUint32 val; |
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283 r = HcrSimTest.GetUInt(id, val); |
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284 test_Equal(KErrArgument, r); |
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285 } |
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286 if (setting->iName.iType != ETypeUInt16) |
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287 { |
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288 TUint16 val; |
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289 r = HcrSimTest.GetUInt(id, val); |
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290 test_Equal(KErrArgument, r); |
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291 } |
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292 if (setting->iName.iType != ETypeUInt8) |
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293 { |
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294 TUint8 val; |
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295 r = HcrSimTest.GetUInt(id, val); |
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296 test_Equal(KErrArgument, r); |
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297 } |
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298 if (setting->iName.iType != ETypeLinAddr) |
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299 { |
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300 TLinAddr val; |
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301 r = HcrSimTest.GetLinAddr(id, val); |
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302 test_Equal(KErrArgument, r); |
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303 } |
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304 if (setting->iName.iType != ETypeBinData) |
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305 { |
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306 TBuf8<KMaxSettingLength> dval; |
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307 TUint8* pval; |
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308 pval = (TUint8*) User::Alloc(setting->iName.iLen); |
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309 test_NotNull(pval); |
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310 // |
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311 r = HcrSimTest.GetData(id, dval); |
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312 test_Equal(KErrArgument, r); |
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313 // |
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314 TUint16 actuallength; |
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315 r = HcrSimTest.GetData(id, setting->iName.iLen, pval, actuallength); |
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316 test_Equal(KErrArgument, r); |
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317 // |
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318 User::Free(pval); |
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319 } |
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320 else if (setting->iName.iLen > 1) |
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321 { |
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322 RBuf8 dval; |
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323 r = dval.Create(setting->iName.iLen - 1); |
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324 test_KErrNone(r); |
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325 r = HcrSimTest.GetData(id, dval); |
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326 test_Equal(KErrTooBig, r); |
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327 dval.Close(); |
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328 } |
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329 if (setting->iName.iType != ETypeText8) |
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330 { |
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331 TBuf8<KMaxSettingLength> dval; |
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332 TText8* pval; |
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333 pval = (TText8*) User::Alloc(setting->iName.iLen); |
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334 test_NotNull(pval); |
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335 // |
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336 r = HcrSimTest.GetString(id, dval); |
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337 test_Equal(KErrArgument, r); |
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338 // |
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339 TUint16 actuallength; |
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340 r = HcrSimTest.GetString(id, setting->iName.iLen, pval, actuallength); |
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341 test_Equal(KErrArgument, r); |
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342 // |
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343 User::Free(pval); |
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344 } |
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345 else if (setting->iName.iLen > 1) |
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346 { |
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347 RBuf8 dval; |
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348 r = dval.Create(setting->iName.iLen - 1); |
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349 test_KErrNone(r); |
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350 r = HcrSimTest.GetString(id, dval); |
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351 test_Equal(KErrTooBig, r); |
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352 dval.Close(); |
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353 } |
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354 if (setting->iName.iType != ETypeArrayInt32) |
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355 { |
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356 TInt32* pval; |
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357 pval = (TInt32*) User::Alloc(setting->iName.iLen); |
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358 test_NotNull(pval); |
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359 // |
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360 TUint16 actuallength; |
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361 r = HcrSimTest.GetArray(id, setting->iName.iLen, pval, actuallength); |
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362 test_Equal(KErrArgument, r); |
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363 // |
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364 User::Free(pval); |
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365 } |
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366 else |
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367 { |
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368 TInt32* pval; |
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369 pval = (TInt32*) User::Alloc(setting->iName.iLen); |
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370 test_NotNull(pval); |
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371 // |
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372 TUint16 actuallength; |
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373 r = HcrSimTest.GetArray(id, (TUint16) (setting->iName.iLen / 2), pval, actuallength); |
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374 test_Equal(KErrTooBig, r); |
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375 // |
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376 User::Free(pval); |
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377 } |
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378 if (setting->iName.iType != ETypeArrayUInt32) |
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379 { |
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380 TUint32* pval; |
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381 pval = (TUint32*) User::Alloc(setting->iName.iLen); |
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382 test_NotNull(pval); |
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383 // |
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384 TUint16 actuallength; |
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385 r = HcrSimTest.GetArray(id, setting->iName.iLen, pval, actuallength); |
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386 test_Equal(KErrArgument, r); |
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387 // |
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388 User::Free(pval); |
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389 } |
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390 if (setting->iName.iType != ETypeInt64) |
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391 { |
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392 TInt64 val; |
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393 r = HcrSimTest.GetInt(id, val); |
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394 test_Equal(KErrArgument, r); |
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395 } |
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396 if (setting->iName.iType != ETypeUInt64) |
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397 { |
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398 TUint64 val; |
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399 r = HcrSimTest.GetUInt(id, val); |
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400 test_Equal(KErrArgument, r); |
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401 } |
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402 } |
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403 } |
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404 |
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405 void HcrSimSettingProperties(SSettingC* aRepository, TUint aNumberOfSettings) |
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406 { |
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407 test.Next(_L("SettingProperties")); |
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408 TInt r; |
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409 SSettingC* setting; |
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410 for (setting = aRepository; setting < aRepository + aNumberOfSettings; setting++) |
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411 { |
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412 TSettingId id(setting->iName.iId.iCat, setting->iName.iId.iKey); |
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413 test.Printf(_L("(0x%08x, 0x%08x)\n"), id.iCat, id.iKey); |
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414 TSettingType type = ETypeUndefined; |
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415 TUint16 size = KMaxSettingLength + 1; |
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416 r = HcrSimTest.GetTypeAndSize(id, type, size); |
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417 test_KErrNone(r); |
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418 switch (setting->iName.iType) |
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419 { |
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420 case ETypeInt32: |
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421 case ETypeInt16: |
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422 case ETypeInt8: |
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423 case ETypeBool: |
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424 case ETypeUInt32: |
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425 case ETypeUInt16: |
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426 case ETypeUInt8: |
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427 case ETypeLinAddr: |
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428 test_Equal(setting->iName.iType, type); |
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429 test_Equal(0, size); |
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430 break; |
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431 // Fall-through |
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432 case ETypeBinData: |
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433 case ETypeText8: |
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434 case ETypeArrayInt32: |
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435 case ETypeArrayUInt32: |
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436 case ETypeInt64: |
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437 case ETypeUInt64: |
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438 test_Equal(setting->iName.iType, type); |
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439 test_Equal(setting->iName.iLen, size); |
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440 break; |
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441 default: |
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442 test(EFalse); |
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443 } |
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444 test.Printf(_L(".")); |
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445 } |
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446 test.Printf(_L("\n")); |
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447 } |
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448 |
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449 void HcrSimMultipleGet(SSettingC* aRepository, TUint aNumberOfSettings) |
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450 { |
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451 test.Next(_L("MultipleGet")); |
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452 TInt r; |
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453 SSettingId largesetting; |
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454 largesetting.iCat = 0; |
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455 largesetting.iKey = 0; |
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456 |
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457 SSettingC* setting; |
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458 SSettingId id; |
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459 id.iCat = 0; |
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460 id.iKey = 0; |
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461 |
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462 |
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463 |
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464 test.Start(_L("Multiple Get on individual settings")); |
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465 |
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466 for (setting = aRepository; setting < aRepository + aNumberOfSettings; setting++) |
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467 { |
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468 if (setting->iName.iType < 0x00010000) |
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469 { |
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470 test.Printf(_L("(0x%08x, 0x%08x)\n"), id.iCat, id.iKey); |
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471 TInt i; |
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472 |
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473 TInt32 val; |
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474 TSettingType type; |
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475 TInt err; |
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476 |
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477 |
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478 test.Next(_L("Multiple Get, with non-existing category or element id")); |
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479 |
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480 // Try all permutations of optional values |
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481 // i == 0 || i == 1 Just a single setting from the repostitory |
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482 // i == 2 || i == 3 Valid category and invalid element id |
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483 // i == 4 || i == 5 Invalid category and valid element id |
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484 // i == 6 || i == 7 Invalid category and element id |
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485 for (i = 0; i < 8; i++) |
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486 { |
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487 //Just a single setting from the repository |
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488 if(i == 0 || i == 1) |
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489 { |
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490 //test.Printf(_L("Single setting, valid element && valid category\n")); |
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491 id.iCat = setting->iName.iId.iCat; |
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492 id.iKey = setting->iName.iId.iKey; |
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493 |
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494 //test.Printf(_L("-Permutation %02x\n"), i); |
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495 r = HcrSimTest.GetWordSettings(1, &id, &val, |
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496 (i & 0x1 ? &type : NULL), &err); |
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497 //HCR should return 1 |
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498 test_Equal(1, r); |
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499 test_Equal(setting->iValue.iLit.iInt32, val); |
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500 if (i & 0x1) |
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501 { |
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502 test_Equal(setting->iName.iType, type); |
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503 } |
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504 |
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505 test_KErrNone(err); |
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506 } |
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507 |
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508 //Valid category and invalid element id |
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509 if(i == 2 || i == 3) |
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510 { |
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511 //test.Printf(_L("Single setting, invalid element && valid category\n")); |
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512 id.iCat = setting->iName.iId.iCat; |
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513 id.iKey = KTestInvalidSettingId; |
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514 |
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515 |
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516 r = HcrSimTest.GetWordSettings(1, &id, &val, |
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517 (i & 0x1 ? &type : NULL), &err); |
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518 |
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519 //HCR should return 0 |
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520 test_Equal(0, r); |
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521 test_Equal(0, val); |
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522 if (i & 0x1) |
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523 { |
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524 //HCR returns ETypeUndefined |
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525 test_Equal(0, type); |
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526 } |
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527 |
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528 test_Equal(KErrNotFound,err); |
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529 } |
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530 |
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531 //Invalid category and valid element id |
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532 if(i == 4 || i == 5) |
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533 { |
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534 id.iCat = KTestInvalidCategory; |
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535 id.iKey = setting->iName.iId.iKey; |
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536 |
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537 //test.Printf(_L("Single setting, invalid element && valid category\n")); |
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538 r = HcrSimTest.GetWordSettings(1, &id, &val, |
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539 (i & 0x1 ? &type : NULL), &err); |
|
540 //HCR should return 1 |
|
541 test_Equal(0, r); |
|
542 test_Equal(0, val); |
|
543 if (i & 0x1) |
|
544 { |
|
545 //HCR returns ETypeUndefined |
|
546 test_Equal(0, type); |
|
547 } |
|
548 |
|
549 test_Equal(KErrNotFound, err); |
|
550 } |
|
551 |
|
552 //Invalid category and element id |
|
553 if(i == 6 || i == 7) |
|
554 { |
|
555 id.iCat = KTestInvalidCategory; |
|
556 id.iKey = KTestInvalidSettingId; |
|
557 |
|
558 //test.Printf(_L("Single setting, invalid element && valid category\n")); |
|
559 r = HcrSimTest.GetWordSettings(1, &id, &val, |
|
560 (i & 0x1 ? &type : NULL), &err); |
|
561 //HCR should return 1 |
|
562 test_Equal(0, r); |
|
563 test_Equal(0, val); |
|
564 if (i & 0x1) |
|
565 { |
|
566 //HCR returns ETypeUndefined |
|
567 test_Equal(0, type); |
|
568 } |
|
569 test_Equal(KErrNotFound, err); |
|
570 } |
|
571 } |
|
572 } |
|
573 else if (largesetting.iKey == 0) |
|
574 { |
|
575 // save for later |
|
576 largesetting.iCat = setting->iName.iId.iCat; |
|
577 largesetting.iKey = setting->iName.iId.iKey; |
|
578 } |
|
579 } |
|
580 |
|
581 |
|
582 |
|
583 test.Next(_L("Multiple Get, some user input parameters are wrong")); |
|
584 |
|
585 |
|
586 TInt nosettings = 0; |
|
587 for (setting = aRepository; setting < aRepository + aNumberOfSettings; setting++) |
|
588 { |
|
589 if (setting->iName.iType < 0x00010000) |
|
590 { |
|
591 nosettings++; |
|
592 } |
|
593 test_Compare(0, <, nosettings); |
|
594 } |
|
595 |
|
596 |
|
597 SSettingId* ids; |
|
598 TInt32* vals; |
|
599 TSettingType* types; |
|
600 TInt* errs; |
|
601 |
|
602 |
|
603 ids = (SSettingId*) User::Alloc(sizeof(SSettingId) * nosettings); |
|
604 test_NotNull(ids); |
|
605 vals = (TInt32*) User::Alloc(sizeof(TInt32) * nosettings); |
|
606 test_NotNull(vals); |
|
607 types = (TSettingType*) User::Alloc(sizeof(TSettingType) * nosettings); |
|
608 test_NotNull(types); |
|
609 errs = (TInt*) User::Alloc(sizeof(TInt) * nosettings); |
|
610 test_NotNull(errs); |
|
611 |
|
612 TUint n = 0; |
|
613 |
|
614 for (setting = aRepository; setting < aRepository + aNumberOfSettings; setting++) |
|
615 { |
|
616 if (setting->iName.iType < 0x00010000) |
|
617 { |
|
618 ids[n].iCat = setting->iName.iId.iCat; |
|
619 ids[n].iKey = setting->iName.iId.iKey; |
|
620 n++; |
|
621 } |
|
622 } |
|
623 test_Equal(nosettings, n); |
|
624 |
|
625 |
|
626 |
|
627 test.Next(_L("Number of settings is negative \n")); |
|
628 r = HcrSimTest.GetWordSettings(-1 * nosettings, ids, vals, types, errs); |
|
629 |
|
630 //HCR returns KErrArgument |
|
631 test_Equal(KErrArgument, r); |
|
632 |
|
633 |
|
634 test.Printf(_L("Pointer to errors array is NULL \n")); |
|
635 r = HcrSimTest.GetWordSettings(nosettings, ids, vals, types, NULL); |
|
636 |
|
637 //HCR returns KErrArgument |
|
638 test_Equal(KErrArgument, r); |
|
639 |
|
640 |
|
641 test.Printf(_L("Pointer to ids is NULL \n")); |
|
642 r = HcrSimTest.GetWordSettings(nosettings, NULL, vals, types, errs); |
|
643 |
|
644 //HCR returns KErrArgument |
|
645 test_Equal(KErrArgument, r); |
|
646 |
|
647 User::Free(ids); |
|
648 User::Free(vals); |
|
649 User::Free(types); |
|
650 User::Free(errs); |
|
651 |
|
652 |
|
653 |
|
654 test.Next(_L("Multiple Get on all settings")); |
|
655 nosettings = 0; |
|
656 for (setting = aRepository; setting < aRepository + aNumberOfSettings; setting++) |
|
657 { |
|
658 if (setting->iName.iType < 0x00010000) |
|
659 { |
|
660 nosettings++; |
|
661 } |
|
662 test_Compare(0, <, nosettings); |
|
663 } |
|
664 |
|
665 ids = (SSettingId*) User::Alloc(sizeof(SSettingId) * nosettings); |
|
666 test_NotNull(ids); |
|
667 vals = (TInt32*) User::Alloc(sizeof(TInt32) * nosettings); |
|
668 test_NotNull(vals); |
|
669 types = (TSettingType*) User::Alloc(sizeof(TSettingType) * nosettings); |
|
670 test_NotNull(types); |
|
671 errs = (TInt*) User::Alloc(sizeof(TInt) * nosettings); |
|
672 test_NotNull(errs); |
|
673 |
|
674 n = 0; |
|
675 |
|
676 for (setting = aRepository; setting < aRepository + aNumberOfSettings; setting++) |
|
677 { |
|
678 if (setting->iName.iType < 0x00010000) |
|
679 { |
|
680 ids[n].iCat = setting->iName.iId.iCat; |
|
681 ids[n].iKey = setting->iName.iId.iKey; |
|
682 n++; |
|
683 } |
|
684 } |
|
685 test_Equal(nosettings, n); |
|
686 |
|
687 |
|
688 // Try all permutations of optional values |
|
689 TInt i; |
|
690 for (i = 0; i < 2; i++) |
|
691 { |
|
692 r = HcrSimTest.GetWordSettings(nosettings, ids, vals, |
|
693 (i & 0x1 ? types : NULL), errs); |
|
694 //HCR returns number of found elements |
|
695 test_Equal(nosettings, r); |
|
696 |
|
697 // Check values |
|
698 n = 0; |
|
699 for (setting = aRepository; setting < aRepository + aNumberOfSettings; setting++) |
|
700 { |
|
701 if (setting->iName.iType < 0x00010000) |
|
702 { |
|
703 test_Equal(setting->iValue.iLit.iInt32, vals[n]); |
|
704 if (i & 0x1) |
|
705 { |
|
706 test_Equal(setting->iName.iType,types[n]); |
|
707 } |
|
708 test_KErrNone(errs[n]); |
|
709 n++; |
|
710 } |
|
711 } |
|
712 test_Equal(nosettings, n); |
|
713 } |
|
714 User::Free(ids); |
|
715 User::Free(vals); |
|
716 User::Free(types); |
|
717 User::Free(errs); |
|
718 |
|
719 test.Next(_L("Multiple Get on all settings + inexistent")); |
|
720 nosettings = 1; |
|
721 for (setting = aRepository; setting < aRepository + aNumberOfSettings; setting++) |
|
722 { |
|
723 if (setting->iName.iType < 0x00010000) |
|
724 { |
|
725 nosettings++; |
|
726 } |
|
727 test_Compare(0, <, nosettings); |
|
728 } |
|
729 ids = (SSettingId*) User::Alloc(sizeof(SSettingId) * nosettings); |
|
730 test_NotNull(ids); |
|
731 vals = (TInt32*) User::Alloc(sizeof(TInt32) * nosettings); |
|
732 test_NotNull(vals); |
|
733 types = (TSettingType*) User::Alloc(sizeof(TSettingType) * nosettings); |
|
734 test_NotNull(types); |
|
735 errs = (TInt*) User::Alloc(sizeof(TInt) * nosettings); |
|
736 test_NotNull(errs); |
|
737 ids[0].iCat = KTestInvalidCategory; |
|
738 ids[0].iKey = KTestInvalidSettingId; |
|
739 |
|
740 |
|
741 n = 1; |
|
742 for (setting = aRepository; setting < aRepository + aNumberOfSettings; setting++) |
|
743 { |
|
744 if (setting->iName.iType < 0x00010000) |
|
745 { |
|
746 ids[n].iCat = setting->iName.iId.iCat; |
|
747 ids[n].iKey = setting->iName.iId.iKey; |
|
748 n++; |
|
749 } |
|
750 } |
|
751 |
|
752 test_Equal(nosettings, n); |
|
753 |
|
754 // Try all permutations of optional values |
|
755 for (i = 0; i < 2; i++) |
|
756 { |
|
757 r = HcrSimTest.GetWordSettings(nosettings, ids, vals, |
|
758 (i & 0x1 ? types : NULL), errs); |
|
759 test_Equal(nosettings - 1, r); |
|
760 |
|
761 // Check values |
|
762 if (i & 0x1) |
|
763 { |
|
764 test_Equal(ETypeUndefined, types[0]); |
|
765 } |
|
766 test_Equal(KErrNotFound, errs[0]); |
|
767 |
|
768 n = 1; |
|
769 for (setting = aRepository; setting < aRepository + aNumberOfSettings; setting++) |
|
770 { |
|
771 if (setting->iName.iType < 0x00010000) |
|
772 { |
|
773 test_Equal(setting->iValue.iLit.iInt32, vals[n]); |
|
774 if (i & 0x1) |
|
775 { |
|
776 test_Equal(setting->iName.iType, types[n]); |
|
777 } |
|
778 |
|
779 test_KErrNone(errs[n]); |
|
780 |
|
781 n++; |
|
782 } |
|
783 } |
|
784 test_Equal(nosettings, n); |
|
785 } |
|
786 User::Free(ids); |
|
787 User::Free(vals); |
|
788 User::Free(types); |
|
789 User::Free(errs); |
|
790 |
|
791 test.Next(_L("Multiple Get on a large setting")); |
|
792 if (largesetting.iKey) |
|
793 { |
|
794 TInt32 value; |
|
795 TSettingType type; |
|
796 TInt theerror = 1; |
|
797 r = HcrSimTest.GetWordSettings(1, &largesetting, &value, &type, &theerror); |
|
798 test_Equal(0, r); |
|
799 test_Equal(KErrArgument, theerror); |
|
800 } |
|
801 else |
|
802 { |
|
803 test.Printf(_L("No large setting found in repositories!\n")); |
|
804 } |
|
805 test.End(); |
|
806 } |
|
807 |
|
808 void HcrSimNumSettingsInCategory(SSettingC* aRepository, TUint aNumberOfSettings) |
|
809 { |
|
810 test.Next(_L("NumSettingsInCategory")); |
|
811 TInt r; |
|
812 // Build a hash table with number of settings for each category |
|
813 RHashMap<TUint32, TInt> numsettings; |
|
814 SSettingC* setting; |
|
815 TInt* pV = NULL; |
|
816 TInt value = 0; |
|
817 for (setting = aRepository; setting < aRepository + aNumberOfSettings; setting++) |
|
818 { |
|
819 pV = numsettings.Find(setting->iName.iId.iCat); |
|
820 if(pV) |
|
821 value = *pV; |
|
822 if (!pV) |
|
823 { |
|
824 r = numsettings.Insert(setting->iName.iId.iCat, 1); |
|
825 test_KErrNone(r); |
|
826 } |
|
827 else |
|
828 { |
|
829 r = numsettings.Remove(setting->iName.iId.iCat); |
|
830 test_KErrNone(r); |
|
831 r = numsettings.Insert(setting->iName.iId.iCat, value + 1); |
|
832 test_KErrNone(r); |
|
833 } |
|
834 } |
|
835 |
|
836 // Now compare hash table with values returned by FindNumSettingsInCategory |
|
837 RHashMap<TUint32, TInt>::TIter catiter(numsettings); |
|
838 for (;;) |
|
839 { |
|
840 const TUint32* nextcat = catiter.NextKey(); |
|
841 if (!nextcat) |
|
842 { |
|
843 break; |
|
844 } |
|
845 test.Printf(_L("Category %08x\n"), *nextcat); |
|
846 const TInt* v = numsettings.Find(*nextcat); |
|
847 test_NotNull(v); |
|
848 r = HcrSimTest.FindNumSettingsInCategory(*nextcat); |
|
849 test_Equal(*v, r); |
|
850 } |
|
851 numsettings.Close(); |
|
852 } |
|
853 |
|
854 void HcrSimFindSettingsCategory(SSettingC* aRepository, TUint aNumberOfSettings) |
|
855 { |
|
856 test.Next(_L("FindSettingsCategory")); |
|
857 TInt r; |
|
858 // Build a hash table with number of settings for each category |
|
859 RHashMap<TUint32, TInt> numsettings; |
|
860 SSettingC* setting; |
|
861 TInt* pV = NULL; |
|
862 TInt value = 0; |
|
863 for (setting = aRepository; setting < aRepository + aNumberOfSettings; setting++) |
|
864 { |
|
865 pV = numsettings.Find(setting->iName.iId.iCat); |
|
866 if(pV) |
|
867 value = *pV; |
|
868 if (!pV) |
|
869 { |
|
870 r = numsettings.Insert(setting->iName.iId.iCat, 1); |
|
871 test_KErrNone(r); |
|
872 } |
|
873 else |
|
874 { |
|
875 r = numsettings.Remove(setting->iName.iId.iCat); |
|
876 test_KErrNone(r); |
|
877 r = numsettings.Insert(setting->iName.iId.iCat, value + 1); |
|
878 test_KErrNone(r); |
|
879 } |
|
880 } |
|
881 |
|
882 // |
|
883 RHashMap<TUint32, TInt>::TIter catiter(numsettings); |
|
884 for (;;) |
|
885 { |
|
886 const TUint32* nextcat = catiter.NextKey(); |
|
887 if (!nextcat) |
|
888 { |
|
889 break; |
|
890 } |
|
891 test.Printf(_L("Category %08x"), *nextcat); |
|
892 const TInt* v = numsettings.Find(*nextcat); |
|
893 test_NotNull(v); |
|
894 |
|
895 // Allocate memory for holding array of settings |
|
896 TElementId* elids; |
|
897 TSettingType* types; |
|
898 TUint16* lens; |
|
899 elids = (TElementId*) User::Alloc(*v * sizeof(TElementId)); |
|
900 test_NotNull(elids); |
|
901 types = (TSettingType*) User::Alloc(*v * sizeof(TSettingType)); |
|
902 test_NotNull(types); |
|
903 lens = (TUint16*) User::Alloc(*v * sizeof(TUint16)); |
|
904 test_NotNull(lens); |
|
905 |
|
906 // Try all permutations of optional values |
|
907 TInt i; |
|
908 for (i = 0; i < 3; i++) |
|
909 { |
|
910 test.Printf(_L(".")); |
|
911 Mem::Fill(elids, *v * sizeof(TElementId), 0xcc); |
|
912 Mem::Fill(types, *v * sizeof(TSettingType), 0xcc); |
|
913 Mem::Fill(lens, *v * sizeof(TUint16), 0xcc); |
|
914 TUint32 numfound; |
|
915 r = HcrSimTest.FindSettings(*nextcat, |
|
916 *v, numfound, |
|
917 elids, |
|
918 i & 0x1 ? types : NULL, |
|
919 i & 0x2 ? lens : NULL); |
|
920 numfound = r; |
|
921 test_Compare(0, <=, r); |
|
922 test_Equal(*v, r); |
|
923 |
|
924 |
|
925 // Check returned list of element ids |
|
926 TUint j; |
|
927 for (j = 0; j < numfound; j++) |
|
928 { |
|
929 // Find current element in the test array |
|
930 for (setting = aRepository; setting < aRepository + aNumberOfSettings; setting++) |
|
931 { |
|
932 if ((setting->iName.iId.iCat == *nextcat) && (setting->iName.iId.iKey == elids[j])) |
|
933 { |
|
934 break; |
|
935 } |
|
936 } |
|
937 test_Compare(setting,<,aRepository+aNumberOfSettings); // Fail if element not found |
|
938 switch (setting->iName.iType) |
|
939 { |
|
940 case ETypeInt32: |
|
941 case ETypeInt16: |
|
942 case ETypeInt8: |
|
943 case ETypeBool: |
|
944 case ETypeUInt32: |
|
945 case ETypeUInt16: |
|
946 case ETypeUInt8: |
|
947 case ETypeLinAddr: |
|
948 if (i & 0x1) |
|
949 { |
|
950 test_Equal(setting->iName.iType, types[j]); |
|
951 } |
|
952 if (i & 0x2) |
|
953 { |
|
954 test_Equal(0, lens[j]); |
|
955 } |
|
956 break; |
|
957 // Fall-through |
|
958 case ETypeBinData: |
|
959 case ETypeText8: |
|
960 case ETypeArrayInt32: |
|
961 case ETypeArrayUInt32: |
|
962 case ETypeInt64: |
|
963 case ETypeUInt64: |
|
964 if (i & 0x1) |
|
965 { |
|
966 test_Equal(setting->iName.iType, types[j]); |
|
967 } |
|
968 if (i & 0x2) |
|
969 { |
|
970 test_Equal(setting->iName.iLen, lens[j]); |
|
971 } |
|
972 break; |
|
973 default: |
|
974 test(EFalse); |
|
975 } |
|
976 } |
|
977 // Check all expected elements are in the returned list of element ids |
|
978 for (setting = aRepository; setting < aRepository + aNumberOfSettings; setting++) |
|
979 { |
|
980 if ((setting->iName.iId.iCat == *nextcat)) |
|
981 { |
|
982 for (j = 0; j < numfound; j++) |
|
983 { |
|
984 if (elids[j] == setting->iName.iId.iKey) |
|
985 { |
|
986 break; |
|
987 } |
|
988 } |
|
989 test_Compare(j, <=, numfound); |
|
990 } |
|
991 } |
|
992 } |
|
993 User::Free(elids); |
|
994 User::Free(types); |
|
995 User::Free(lens); |
|
996 test.Printf(_L("\n")); |
|
997 } |
|
998 numsettings.Close(); |
|
999 } |
|
1000 |
|
1001 struct TTestFindSettingsPatternArgs |
|
1002 { |
|
1003 TUint32 iMask; |
|
1004 TUint32 iPattern; |
|
1005 }; |
|
1006 |
|
1007 const TTestFindSettingsPatternArgs KTestFindSettingsPatternArgs[] = { |
|
1008 // iMask iPattern |
|
1009 {0x00000000, 0x00000000}, |
|
1010 /* {0xfffffff0, 0x00000000}, |
|
1011 {0xffffffff, 0x00000001},*/ |
|
1012 }; |
|
1013 |
|
1014 void HcrSimFindSettingsPattern(SSettingC* aRepository, TUint aNumberOfSettings) |
|
1015 { |
|
1016 test.Next(_L("FindSettingsPattern")); |
|
1017 TInt r; |
|
1018 TUint i; |
|
1019 |
|
1020 // Allocate memory for holding array of settings |
|
1021 TElementId* elids; |
|
1022 TSettingType* types; |
|
1023 TUint16* lens; |
|
1024 elids = (TElementId*) User::Alloc(aNumberOfSettings * sizeof(TElementId)); |
|
1025 test_NotNull(elids); |
|
1026 types = (TSettingType*) User::Alloc(aNumberOfSettings * sizeof(TSettingType)); |
|
1027 test_NotNull(types); |
|
1028 lens = (TUint16*) User::Alloc(aNumberOfSettings * sizeof(TUint16)); |
|
1029 test_NotNull(lens); |
|
1030 |
|
1031 for (i = 0; i < sizeof(KTestFindSettingsPatternArgs) / sizeof(TTestFindSettingsPatternArgs); i++) |
|
1032 { |
|
1033 test.Printf(_L("iMask=0x%08x iPattern=0x%08x\n"), |
|
1034 KTestFindSettingsPatternArgs[i].iMask, |
|
1035 KTestFindSettingsPatternArgs[i].iPattern); |
|
1036 |
|
1037 // Test each category |
|
1038 TUint j; |
|
1039 for (j = 0; j < sizeof(KTestCategories) / sizeof(TCategoryUid); j++) |
|
1040 { |
|
1041 test.Printf(_L("Category 0x%08x: "), KTestCategories[j]); |
|
1042 |
|
1043 // Test all possible permutations of optional arguments |
|
1044 TUint k; |
|
1045 for (k = 0; k < 3; k++) |
|
1046 { |
|
1047 TUint32 numfound; |
|
1048 // Actual API call |
|
1049 r = HcrSimTest.FindSettings( |
|
1050 KTestCategories[j], |
|
1051 aNumberOfSettings, |
|
1052 KTestFindSettingsPatternArgs[i].iMask, |
|
1053 KTestFindSettingsPatternArgs[i].iPattern, |
|
1054 numfound, |
|
1055 elids, |
|
1056 (k & 0x1 ? types : NULL), |
|
1057 (k & 0x2 ? lens : NULL)); |
|
1058 test_Compare(0, <=, r); |
|
1059 |
|
1060 numfound = r; |
|
1061 |
|
1062 test.Printf(_L("%d match(es)\n"), r); |
|
1063 |
|
1064 // Check that all returned element ids satisfy the conditions |
|
1065 TUint l; |
|
1066 for (l = 0; l < numfound; l++) |
|
1067 { |
|
1068 test_Assert( |
|
1069 (KTestFindSettingsPatternArgs[i].iMask & KTestFindSettingsPatternArgs[i].iPattern) == |
|
1070 (KTestFindSettingsPatternArgs[i].iMask & elids[l]), test.Printf(_L("!!%08x!!\n"), elids[l]) |
|
1071 ); |
|
1072 //Somehow the macro test_Compare consider TInt32 instead TUint32 |
|
1073 //as a result comparasion is done by this way: |
|
1074 //RTEST: (0x0 (0) < 0x80000000 (-2147483648)) == EFalse at line 1038 |
|
1075 //althought 0x80000000 > 0, with the signed form this number will be |
|
1076 //-2147483648. |
|
1077 //test_Compare(KTestFindSettingsPatternArgs[i].iAtId, <=, elids[l]); |
|
1078 } |
|
1079 |
|
1080 // Check that all elements that satisfy the conditions have been returned |
|
1081 SSettingC* setting; |
|
1082 TUint32 numsettings = 0; |
|
1083 for (setting = aRepository; setting < aRepository + aNumberOfSettings; setting++) |
|
1084 { |
|
1085 if ((setting->iName.iId.iCat == KTestCategories[j]) |
|
1086 && ((KTestFindSettingsPatternArgs[i].iMask & KTestFindSettingsPatternArgs[i].iPattern) == |
|
1087 (KTestFindSettingsPatternArgs[i].iMask & setting->iName.iId.iKey))) |
|
1088 { |
|
1089 for (l = 0; l < numfound; l++) |
|
1090 { |
|
1091 if (setting->iName.iId.iKey == elids[l]) |
|
1092 { |
|
1093 break; |
|
1094 } |
|
1095 } |
|
1096 test_Assert(l < numfound, test.Printf(_L("!!%08x!!\n"), elids[l])); |
|
1097 |
|
1098 // Check type and size returned |
|
1099 switch (setting->iName.iType) |
|
1100 { |
|
1101 case ETypeInt32: |
|
1102 case ETypeInt16: |
|
1103 case ETypeInt8: |
|
1104 case ETypeBool: |
|
1105 case ETypeUInt32: |
|
1106 case ETypeUInt16: |
|
1107 case ETypeUInt8: |
|
1108 case ETypeLinAddr: |
|
1109 if (k & 0x1) |
|
1110 { |
|
1111 test_Equal(setting->iName.iType, types[l]); |
|
1112 } |
|
1113 if (k & 0x2) |
|
1114 { |
|
1115 test_Equal(0, lens[l]); |
|
1116 } |
|
1117 break; |
|
1118 // Fall-through |
|
1119 case ETypeBinData: |
|
1120 case ETypeText8: |
|
1121 case ETypeArrayInt32: |
|
1122 case ETypeArrayUInt32: |
|
1123 case ETypeInt64: |
|
1124 case ETypeUInt64: |
|
1125 if (k & 0x1) |
|
1126 { |
|
1127 test_Equal(setting->iName.iType, types[l]); |
|
1128 } |
|
1129 if (k & 0x2) |
|
1130 { |
|
1131 test_Equal(setting->iName.iLen, lens[l]); |
|
1132 } |
|
1133 break; |
|
1134 default: |
|
1135 test(EFalse); |
|
1136 } |
|
1137 numsettings++; |
|
1138 } |
|
1139 } |
|
1140 test_Equal(numsettings, numfound); |
|
1141 } |
|
1142 } |
|
1143 } |
|
1144 |
|
1145 // Free memory |
|
1146 User::Free(elids); |
|
1147 User::Free(types); |
|
1148 User::Free(lens); |
|
1149 } |
|
1150 |
|
1151 void HcrSimApiNegative(const TInt aExpectedErrorCode, const TUint32 aCategory, const TUint32 aSettingId) |
|
1152 { |
|
1153 test.Next(_L("ApiNegative")); |
|
1154 test.Printf(_L("Expected error: %d\nSetting (%08x, %08x)\n"), aExpectedErrorCode, aCategory, aSettingId); |
|
1155 TSettingId id(aCategory, aSettingId); |
|
1156 TInt r; |
|
1157 { |
|
1158 TInt32 val; |
|
1159 r = HcrSimTest.GetInt(id, val); |
|
1160 test_Equal(aExpectedErrorCode, r); |
|
1161 } |
|
1162 { |
|
1163 TInt16 val; |
|
1164 r = HcrSimTest.GetInt(id, val); |
|
1165 test_Equal(aExpectedErrorCode, r); |
|
1166 } |
|
1167 { |
|
1168 TInt8 val; |
|
1169 r = HcrSimTest.GetInt(id, val); |
|
1170 test_Equal(aExpectedErrorCode, r); |
|
1171 } |
|
1172 { |
|
1173 TBool val; |
|
1174 r = HcrSimTest.GetBool(id, val); |
|
1175 test_Equal(aExpectedErrorCode, r); |
|
1176 } |
|
1177 { |
|
1178 TUint32 val; |
|
1179 r = HcrSimTest.GetUInt(id, val); |
|
1180 test_Equal(aExpectedErrorCode, r); |
|
1181 } |
|
1182 { |
|
1183 TUint16 val; |
|
1184 r = HcrSimTest.GetUInt(id, val); |
|
1185 test_Equal(aExpectedErrorCode, r); |
|
1186 } |
|
1187 { |
|
1188 TUint8 val; |
|
1189 r = HcrSimTest.GetUInt(id, val); |
|
1190 test_Equal(aExpectedErrorCode, r); |
|
1191 } |
|
1192 { |
|
1193 TLinAddr val; |
|
1194 r = HcrSimTest.GetLinAddr(id, val); |
|
1195 test_Equal(aExpectedErrorCode, r); |
|
1196 } |
|
1197 { |
|
1198 TBuf8<KMaxSettingLength> dval; |
|
1199 TUint8* pval; |
|
1200 pval = (TUint8*) User::Alloc(KMaxSettingLength); |
|
1201 test_NotNull(pval); |
|
1202 // |
|
1203 r = HcrSimTest.GetData(id, dval); |
|
1204 test_Equal(aExpectedErrorCode, r); |
|
1205 // |
|
1206 TUint16 actuallength; |
|
1207 r = HcrSimTest.GetData(id, KMaxSettingLength, pval, actuallength); |
|
1208 test_Equal(aExpectedErrorCode, r); |
|
1209 // |
|
1210 User::Free(pval); |
|
1211 } |
|
1212 { |
|
1213 TBuf8<KMaxSettingLength> dval; |
|
1214 TText8* pval; |
|
1215 pval = (TText8*) User::Alloc(KMaxSettingLength); |
|
1216 test_NotNull(pval); |
|
1217 // |
|
1218 r = HcrSimTest.GetString(id, dval); |
|
1219 test_Equal(aExpectedErrorCode, r); |
|
1220 // |
|
1221 TUint16 actuallength; |
|
1222 r = HcrSimTest.GetString(id, KMaxSettingLength, pval, actuallength); |
|
1223 test_Equal(aExpectedErrorCode, r); |
|
1224 // |
|
1225 User::Free(pval); |
|
1226 } |
|
1227 { |
|
1228 TInt32* pval; |
|
1229 pval = (TInt32*) User::Alloc(KMaxSettingLength); |
|
1230 test_NotNull(pval); |
|
1231 // |
|
1232 TUint16 actuallength; |
|
1233 r = HcrSimTest.GetArray(id, KMaxSettingLength, pval, actuallength); |
|
1234 test_Equal(aExpectedErrorCode, r); |
|
1235 // |
|
1236 User::Free(pval); |
|
1237 } |
|
1238 { |
|
1239 TUint32* pval; |
|
1240 pval = (TUint32*) User::Alloc(KMaxSettingLength); |
|
1241 test_NotNull(pval); |
|
1242 // |
|
1243 TUint16 actuallength; |
|
1244 r = HcrSimTest.GetArray(id, KMaxSettingLength, pval, actuallength); |
|
1245 test_Equal(aExpectedErrorCode, r); |
|
1246 // |
|
1247 User::Free(pval); |
|
1248 } |
|
1249 { |
|
1250 TInt64 val; |
|
1251 r = HcrSimTest.GetInt(id, val); |
|
1252 test_Equal(aExpectedErrorCode, r); |
|
1253 } |
|
1254 { |
|
1255 TUint64 val; |
|
1256 r = HcrSimTest.GetUInt(id, val); |
|
1257 test_Equal(aExpectedErrorCode, r); |
|
1258 } |
|
1259 |
|
1260 { |
|
1261 TSettingType type = ETypeUndefined; |
|
1262 TUint16 len = 0; |
|
1263 TUint32 numfound = 0; |
|
1264 TElementId elid = 0; |
|
1265 |
|
1266 |
|
1267 // |
|
1268 r = HcrSimTest.GetTypeAndSize(id, type, len); |
|
1269 test_Equal(aExpectedErrorCode, r); |
|
1270 |
|
1271 // |
|
1272 r = HcrSimTest.FindNumSettingsInCategory(id.iCat); |
|
1273 if (aExpectedErrorCode == KErrNotFound) |
|
1274 { |
|
1275 test_Equal(0, r); |
|
1276 } |
|
1277 |
|
1278 // |
|
1279 r = HcrSimTest.FindSettings(id.iCat, 1, numfound, &elid, &type, &len); |
|
1280 if (aExpectedErrorCode == KErrNotFound) |
|
1281 { |
|
1282 test_Equal(0, r); |
|
1283 } |
|
1284 |
|
1285 // |
|
1286 r = HcrSimTest.FindSettings(id.iCat, 1, 0, 0, numfound, &elid, &type, &len); |
|
1287 if (aExpectedErrorCode == KErrNotFound) |
|
1288 { |
|
1289 test_Equal(0, r); |
|
1290 } |
|
1291 |
|
1292 } |
|
1293 { |
|
1294 SSettingId settingid; |
|
1295 settingid.iCat = id.iCat; |
|
1296 settingid.iKey = id.iKey; |
|
1297 |
|
1298 TInt32 val; |
|
1299 TInt err; |
|
1300 TSettingType type; |
|
1301 TInt i; |
|
1302 |
|
1303 for(i = 0; i < 4; ++i) |
|
1304 { |
|
1305 // test parameter combinations where aIds[], aValues[], aErrors[] are NULL |
|
1306 r = HcrSimTest.GetWordSettings(i, (i==1)?NULL:&settingid, (i==2)?NULL:&val, &type, (i==3)?NULL:&err); |
|
1307 if(r != KErrArgument) |
|
1308 { |
|
1309 test_Equal(aExpectedErrorCode, r); |
|
1310 } |
|
1311 } |
|
1312 } |
|
1313 |
|
1314 } |
|
1315 |
|
1316 void HcrSimTestApiTests(SSettingC* aRepository, TUint aNumberOfSettings) |
|
1317 { |
|
1318 if (aRepository && aNumberOfSettings > 0) |
|
1319 { |
|
1320 HcrSimGetSettings(aRepository, aNumberOfSettings); |
|
1321 HcrSimGetSettingsNegative(aRepository, aNumberOfSettings); |
|
1322 HcrSimSettingProperties(aRepository, aNumberOfSettings); |
|
1323 HcrSimMultipleGet(aRepository, aNumberOfSettings); |
|
1324 HcrSimNumSettingsInCategory(aRepository, aNumberOfSettings); |
|
1325 HcrSimFindSettingsCategory(aRepository, aNumberOfSettings); |
|
1326 HcrSimFindSettingsPattern(aRepository, aNumberOfSettings); |
|
1327 } |
|
1328 |
|
1329 HcrSimApiNegative(KErrNotFound, KTestInvalidCategory, KTestInvalidSettingId); |
|
1330 HcrSimApiNegative(KErrNotFound, KTestInvalidCategory, 1); |
|
1331 } |
|
1332 |
|
1333 void HcrPslTests(const TDesC& aDriver) |
|
1334 { |
|
1335 test.Next(_L("PSL tests")); |
|
1336 test.Start(_L("Load Device Driver")); |
|
1337 test.Printf(_L("%S\n"), &aDriver); |
|
1338 TInt r; |
|
1339 r = User::LoadLogicalDevice(aDriver); |
|
1340 if (r == KErrAlreadyExists) |
|
1341 { |
|
1342 test.Printf(_L("Unload Device Driver and load it again\n")); |
|
1343 r = User::FreeLogicalDevice(aDriver); |
|
1344 test_KErrNone(r); |
|
1345 r = User::LoadLogicalDevice(aDriver); |
|
1346 test_KErrNone(r); |
|
1347 } |
|
1348 else |
|
1349 { |
|
1350 test_KErrNone(r); |
|
1351 } |
|
1352 |
|
1353 test.Next(_L("Open test channel")); |
|
1354 r = HcrSimTest.Open(aDriver); |
|
1355 test_KErrNone(r); |
|
1356 |
|
1357 test.Next(_L("Fail PSL object creation")); |
|
1358 r = HcrSimTest.InitExtension(ETestVariantObjectCreateFail); |
|
1359 test_Equal(KErrNoMemory, r); |
|
1360 HcrSimApiNegative(KErrNotReady, 1, 1); |
|
1361 |
|
1362 test.Next(_L("Fail PSL initialisation")); |
|
1363 r = HcrSimTest.InitExtension(ETestInitialisationFail); |
|
1364 test_Equal(KErrBadPower, r); // the random error code used in the test PSL |
|
1365 HcrSimApiNegative(KErrNotReady, 1, 1); |
|
1366 |
|
1367 test.Next(_L("PSL's GetCompiledRepositoryAddress negative tests")); |
|
1368 r = HcrSimTest.InitExtension(ETestNullRepositoryKErrNone); // *** Null Repository but returns KErrNone |
|
1369 test_Equal(KErrArgument, r); |
|
1370 |
|
1371 test.Next(_L("PSL's GetCompiledRepositoryAddress return wrong error code")); |
|
1372 r = HcrSimTest.InitExtension(ETestBadErrorCode); // *** Null Repository but returns KErrNone |
|
1373 test_Equal(KErrCommsParity, r); |
|
1374 |
|
1375 test.Next(_L("Close test channel and unload device driver")); |
|
1376 HcrSimTest.Close(); |
|
1377 r = User::FreeLogicalDevice(aDriver); |
|
1378 test_KErrNone(r); |
|
1379 test.End(); |
|
1380 } |
|
1381 |
|
1382 void HcrSimTests(const TDesC& aDriver) |
|
1383 { |
|
1384 test.Next(_L("HCR Simulator tests")); |
|
1385 test.Start(_L("Load Device Driver")); |
|
1386 test.Printf(_L("%S\n"), &aDriver); |
|
1387 TInt r; |
|
1388 r = User::LoadLogicalDevice(aDriver); |
|
1389 if (r == KErrAlreadyExists) |
|
1390 { |
|
1391 test.Printf(_L("Unload Device Driver and load it again\n")); |
|
1392 r = User::FreeLogicalDevice(aDriver); |
|
1393 test_KErrNone(r); |
|
1394 r = User::LoadLogicalDevice(aDriver); |
|
1395 test_KErrNone(r); |
|
1396 } |
|
1397 else |
|
1398 { |
|
1399 test_KErrNone(r); |
|
1400 } |
|
1401 |
|
1402 test.Next(_L("Open test channel")); |
|
1403 r = HcrSimTest.Open(aDriver); |
|
1404 test_KErrNone(r); |
|
1405 HcrSimApiNegative(KErrNotReady, 1, 1); |
|
1406 |
|
1407 test.Next(_L("Initialise HCR")); |
|
1408 r = HcrSimTest.InitExtension(); |
|
1409 test_KErrNone(r); |
|
1410 |
|
1411 test.Next(_L("Compiled")); |
|
1412 test.Start(_L("Initialisation")); |
|
1413 r = HcrSimTest.SwitchRepository(KTestClearRepos, HCRInternal::ECoreRepos); |
|
1414 test_KErrNone(r); |
|
1415 r = HcrSimTest.SwitchRepository(KTestClearRepos, HCRInternal::EOverrideRepos); |
|
1416 test_KErrNone(r); |
|
1417 HcrSimTestApiTests(SettingsList, sizeof(SettingsList) / sizeof(SSettingC)); |
|
1418 test.End(); |
|
1419 |
|
1420 test.Next(_L("Compiled+File")); |
|
1421 test.Start(_L("Initialisation")); |
|
1422 r = HcrSimTest.SwitchRepository(KTestFileRepos, HCRInternal::ECoreRepos); |
|
1423 test_KErrNone(r); |
|
1424 r = HcrSimTest.CheckIntegrity(); |
|
1425 test_KErrNone(r); |
|
1426 HcrSimTestApiTests(SettingsList2, sizeof(SettingsList2) / sizeof(SSettingC)); |
|
1427 test.End(); |
|
1428 |
|
1429 test.Next(_L("Compiled+File+Nand")); |
|
1430 test.Start(_L("Initialisation")); |
|
1431 r = HcrSimTest.SwitchRepository(KTestNandRepos, HCRInternal::EOverrideRepos); |
|
1432 test_KErrNone(r); |
|
1433 r = HcrSimTest.CheckIntegrity(); |
|
1434 test_KErrNone(r); |
|
1435 HcrSimTestApiTests(SettingsList3, sizeof(SettingsList3) / sizeof(SSettingC)); |
|
1436 test.End(); |
|
1437 |
|
1438 test.Next(_L("Compiled+Nand")); |
|
1439 test.Start(_L("Initialisation")); |
|
1440 r = HcrSimTest.SwitchRepository(KTestClearRepos, HCRInternal::ECoreRepos); |
|
1441 test_KErrNone(r); |
|
1442 r = HcrSimTest.CheckIntegrity(); |
|
1443 test_KErrNone(r); |
|
1444 HcrSimTestApiTests(SettingsList4, sizeof(SettingsList4) / sizeof(SSettingC)); |
|
1445 test.End(); |
|
1446 |
|
1447 test.Next(_L("Compiled+Empty+Nand")); |
|
1448 test.Start(_L("Initialisation")); |
|
1449 r = HcrSimTest.SwitchRepository(KTestEmpty, HCRInternal::ECoreRepos); |
|
1450 test_KErrNone(r); |
|
1451 r = HcrSimTest.CheckIntegrity(); |
|
1452 test_KErrNone(r); |
|
1453 HcrSimTestApiTests(SettingsList4, sizeof(SettingsList4) / sizeof(SSettingC)); |
|
1454 test.End(); |
|
1455 |
|
1456 // Reload device driver without a compiled repository this time |
|
1457 test.Next(_L("Reload Device Driver")); |
|
1458 HcrSimTest.Close(); |
|
1459 r = User::FreeLogicalDevice(aDriver); |
|
1460 test_KErrNone(r); |
|
1461 r = User::LoadLogicalDevice(aDriver); |
|
1462 test_KErrNone(r); |
|
1463 r = HcrSimTest.Open(aDriver); |
|
1464 test_KErrNone(r); |
|
1465 r = HcrSimTest.InitExtension(ETestNullRepository); // *** The NULL Repository *** |
|
1466 test_KErrNone(r); |
|
1467 |
|
1468 test.Next(_L("NULL+File")); |
|
1469 test.Start(_L("Initialisation")); |
|
1470 r = HcrSimTest.SwitchRepository(KTestClearRepos, HCRInternal::EOverrideRepos); |
|
1471 test_KErrNone(r); |
|
1472 r = HcrSimTest.CheckIntegrity(); |
|
1473 test_KErrNone(r); |
|
1474 HcrSimTestApiTests(SettingsList7, sizeof(SettingsList7) / sizeof(SSettingC)); |
|
1475 test.End(); |
|
1476 |
|
1477 test.Next(_L("NULL+File+Nand")); |
|
1478 test.Start(_L("Initialisation")); |
|
1479 r = HcrSimTest.SwitchRepository(KTestNandRepos, HCRInternal::EOverrideRepos); |
|
1480 test_KErrNone(r); |
|
1481 r = HcrSimTest.CheckIntegrity(); |
|
1482 test_KErrNone(r); |
|
1483 HcrSimTestApiTests(SettingsList6, sizeof(SettingsList6) / sizeof(SSettingC)); |
|
1484 test.End(); |
|
1485 |
|
1486 test.Next(_L("NULL+Nand")); |
|
1487 test.Start(_L("Initialisation")); |
|
1488 r = HcrSimTest.SwitchRepository(KTestClearRepos, HCRInternal::ECoreRepos); |
|
1489 test_KErrNone(r); |
|
1490 r = HcrSimTest.CheckIntegrity(); |
|
1491 test_KErrNone(r); |
|
1492 HcrSimTestApiTests(SettingsList5, sizeof(SettingsList5) / sizeof(SSettingC)); |
|
1493 test.End(); |
|
1494 |
|
1495 test.Next(_L("Reload Device Driver")); |
|
1496 HcrSimTest.Close(); |
|
1497 r = User::FreeLogicalDevice(aDriver); |
|
1498 test_KErrNone(r); |
|
1499 r = User::LoadLogicalDevice(aDriver); |
|
1500 test_KErrNone(r); |
|
1501 r = HcrSimTest.Open(aDriver); |
|
1502 test_KErrNone(r); |
|
1503 r = HcrSimTest.InitExtension(ETestEmptyRepository); // *** The Empty Repository *** |
|
1504 test_KErrNone(r); |
|
1505 |
|
1506 test.Next(_L("Empty+Nand")); |
|
1507 test.Start(_L("Initialisation")); |
|
1508 r = HcrSimTest.SwitchRepository(KTestClearRepos, HCRInternal::ECoreRepos); |
|
1509 test_KErrNone(r); |
|
1510 r = HcrSimTest.SwitchRepository(KTestClearRepos, HCRInternal::EOverrideRepos); |
|
1511 test_KErrNone(r); |
|
1512 r = HcrSimTest.SwitchRepository(KTestNandRepos, HCRInternal::EOverrideRepos); |
|
1513 test_KErrNone(r); |
|
1514 r = HcrSimTest.CheckIntegrity(); |
|
1515 test_KErrNone(r); |
|
1516 HcrSimTestApiTests(SettingsList5, sizeof(SettingsList5) / sizeof(SSettingC)); |
|
1517 test.End(); |
|
1518 |
|
1519 test.Next(_L("Empty+File+Nand")); |
|
1520 test.Start(_L("Initialisation")); |
|
1521 r = HcrSimTest.SwitchRepository(KTestFileRepos, HCRInternal::ECoreRepos); |
|
1522 test_KErrNone(r); |
|
1523 r = HcrSimTest.CheckIntegrity(); |
|
1524 test_KErrNone(r); |
|
1525 HcrSimTestApiTests(SettingsList6, sizeof(SettingsList6) / sizeof(SSettingC)); |
|
1526 test.End(); |
|
1527 |
|
1528 test.Next(_L("Empty+File")); |
|
1529 test.Start(_L("Initialisation")); |
|
1530 r = HcrSimTest.SwitchRepository(KTestClearRepos, HCRInternal::EOverrideRepos); |
|
1531 test_KErrNone(r); |
|
1532 r = HcrSimTest.CheckIntegrity(); |
|
1533 test_KErrNone(r); |
|
1534 HcrSimTestApiTests(SettingsList7, sizeof(SettingsList7) / sizeof(SSettingC)); |
|
1535 test.End(); |
|
1536 |
|
1537 test.Next(_L("No Repository (Empty)")); |
|
1538 test.Start(_L("Initialisation")); |
|
1539 r = HcrSimTest.SwitchRepository(KTestClearRepos, HCRInternal::ECoreRepos); |
|
1540 test_KErrNone(r); |
|
1541 r = HcrSimTest.CheckIntegrity(); |
|
1542 test_KErrNone(r); |
|
1543 HcrSimTestApiTests(NULL, 0); |
|
1544 test.End(); |
|
1545 |
|
1546 test.Next(_L("All Repositories Empty")); |
|
1547 test.Start(_L("Initialisation")); |
|
1548 r = HcrSimTest.SwitchRepository(KTestEmpty, HCRInternal::ECoreRepos); |
|
1549 test_KErrNone(r); |
|
1550 r = HcrSimTest.SwitchRepository(KTestEmpty, HCRInternal::EOverrideRepos); |
|
1551 test_KErrNone(r); |
|
1552 r = HcrSimTest.CheckIntegrity(); |
|
1553 test_KErrNone(r); |
|
1554 HcrSimTestApiTests(NULL, 0); |
|
1555 test.End(); |
|
1556 |
|
1557 test.Next(_L("Reload Device Driver")); |
|
1558 HcrSimTest.Close(); |
|
1559 r = User::FreeLogicalDevice(aDriver); |
|
1560 test_KErrNone(r); |
|
1561 r = User::LoadLogicalDevice(aDriver); |
|
1562 test_KErrNone(r); |
|
1563 r = HcrSimTest.Open(aDriver); |
|
1564 test_KErrNone(r); |
|
1565 r = HcrSimTest.InitExtension(ETestIgnoreCoreImgRepository); // *** Ignore Core Image Repository *** |
|
1566 test_KErrNone(r); |
|
1567 |
|
1568 test.Next(_L("Compiled+File(Ignored)+Nand")); // Should be same as Compiled+Nand |
|
1569 test.Start(_L("Initialisation")); |
|
1570 r = HcrSimTest.SwitchRepository(KTestNandRepos, HCRInternal::EOverrideRepos); |
|
1571 test_KErrNone(r); |
|
1572 r = HcrSimTest.CheckIntegrity(); |
|
1573 test_KErrNone(r); |
|
1574 HcrSimTestApiTests(SettingsList4, sizeof(SettingsList4) / sizeof(SSettingC)); |
|
1575 test.End(); |
|
1576 |
|
1577 test.Next(_L("Reload Device Driver (Corrupt1)")); |
|
1578 HcrSimTest.Close(); |
|
1579 r = User::FreeLogicalDevice(aDriver); |
|
1580 test_KErrNone(r); |
|
1581 r = User::LoadLogicalDevice(aDriver); |
|
1582 test_KErrNone(r); |
|
1583 r = HcrSimTest.Open(aDriver); |
|
1584 test_KErrNone(r); |
|
1585 r = HcrSimTest.InitExtension(ETestCorruptRepository1); // *** Repository not ordered *** |
|
1586 #ifdef _DEBUG |
|
1587 test_Equal(KErrCorrupt, r); |
|
1588 #else |
|
1589 test_KErrNone(r); |
|
1590 #endif // _DEBUG |
|
1591 |
|
1592 test.Next(_L("Reload Device Driver (Corrupt2)")); |
|
1593 HcrSimTest.Close(); |
|
1594 r = User::FreeLogicalDevice(aDriver); |
|
1595 test_KErrNone(r); |
|
1596 r = User::LoadLogicalDevice(aDriver); |
|
1597 test_KErrNone(r); |
|
1598 r = HcrSimTest.Open(aDriver); |
|
1599 test_KErrNone(r); |
|
1600 r = HcrSimTest.InitExtension(ETestCorruptRepository2); // *** Repository with duplicates *** |
|
1601 #ifdef _DEBUG |
|
1602 test_Equal(KErrAlreadyExists, r); |
|
1603 #else |
|
1604 test_KErrNone(r); |
|
1605 #endif // _DEBUG |
|
1606 |
|
1607 test.Next(_L("Reload Device Driver (NULL ordered list)")); |
|
1608 HcrSimTest.Close(); |
|
1609 r = User::FreeLogicalDevice(aDriver); |
|
1610 test_KErrNone(r); |
|
1611 r = User::LoadLogicalDevice(aDriver); |
|
1612 test_KErrNone(r); |
|
1613 r = HcrSimTest.Open(aDriver); |
|
1614 test_KErrNone(r); |
|
1615 r = HcrSimTest.InitExtension(ETestNullOrderedList); // *** Repository where iOrderedSettingList==NULL *** |
|
1616 #ifdef _DEBUG |
|
1617 test_Equal(KErrNotFound, r); |
|
1618 #else |
|
1619 test_KErrNone(r); |
|
1620 #endif // _DEBUG |
|
1621 |
|
1622 test.Next(_L("Reload Device Driver (Default)")); |
|
1623 HcrSimTest.Close(); |
|
1624 r = User::FreeLogicalDevice(aDriver); |
|
1625 test_KErrNone(r); |
|
1626 r = User::LoadLogicalDevice(aDriver); |
|
1627 test_KErrNone(r); |
|
1628 r = HcrSimTest.Open(aDriver); |
|
1629 test_KErrNone(r); |
|
1630 r = HcrSimTest.InitExtension(); // *** Default Repository *** |
|
1631 test_KErrNone(r); |
|
1632 |
|
1633 test.Next(_L("Compiled+Corrupt1+Nand")); |
|
1634 test.Start(_L("Initialisation")); |
|
1635 r = HcrSimTest.SwitchRepository(KTestCorrupt1, HCRInternal::ECoreRepos); |
|
1636 test_KErrNone(r); |
|
1637 r = HcrSimTest.SwitchRepository(KTestNandRepos, HCRInternal::EOverrideRepos); |
|
1638 test_KErrNone(r); |
|
1639 r = HcrSimTest.CheckIntegrity(); |
|
1640 test_Equal(KErrCorrupt, r); |
|
1641 test.End(); |
|
1642 |
|
1643 test.Next(_L("Compiled+Corrupt2+Nand")); |
|
1644 test.Start(_L("Initialisation")); |
|
1645 r = HcrSimTest.SwitchRepository(KTestCorrupt2, HCRInternal::ECoreRepos); |
|
1646 test_KErrNone(r); |
|
1647 r = HcrSimTest.CheckIntegrity(); |
|
1648 test_Equal(KErrAlreadyExists, r); |
|
1649 test.End(); |
|
1650 |
|
1651 test.Next(_L("Compiled+File+Corrupt1")); |
|
1652 test.Start(_L("Initialisation")); |
|
1653 r = HcrSimTest.SwitchRepository(KTestFileRepos, HCRInternal::ECoreRepos); |
|
1654 test_KErrNone(r); |
|
1655 r = HcrSimTest.SwitchRepository(KTestCorrupt1, HCRInternal::EOverrideRepos); |
|
1656 test_KErrNone(r); |
|
1657 r = HcrSimTest.CheckIntegrity(); |
|
1658 test_Equal(KErrCorrupt, r); |
|
1659 test.End(); |
|
1660 |
|
1661 test.Next(_L("Compiled+File+Corrupt2")); |
|
1662 test.Start(_L("Initialisation")); |
|
1663 r = HcrSimTest.SwitchRepository(KTestCorrupt2, HCRInternal::EOverrideRepos); |
|
1664 test_KErrNone(r); |
|
1665 r = HcrSimTest.CheckIntegrity(); |
|
1666 test_Equal(KErrAlreadyExists, r); |
|
1667 test.End(); |
|
1668 |
|
1669 test.Next(_L("Close test channel and unload device driver")); |
|
1670 HcrSimTest.Close(); |
|
1671 r = User::FreeLogicalDevice(aDriver); |
|
1672 test_KErrNone(r); |
|
1673 test.End(); |
|
1674 } |
|
1675 |
|
1676 void RomHeaderTests() |
|
1677 { |
|
1678 test.Next(_L("Rom Header")); |
|
1679 #ifdef __WINS__ |
|
1680 test.Printf(_L("Not available on the emulator.\n")); |
|
1681 #else |
|
1682 const TRomHeader* romheader = (TRomHeader*) UserSvr::RomHeaderAddress(); |
|
1683 test.Printf(_L("HCR File Address: %08x\n"), romheader->iHcrFileAddress); |
|
1684 test(romheader->iHcrFileAddress); |
|
1685 if (romheader->iPageableRomStart) |
|
1686 { |
|
1687 // If this is a paged ROM, HCR file must be in the unpaged area |
|
1688 test_Compare(romheader->iRomBase + romheader->iPageableRomStart, >, romheader->iHcrFileAddress); |
|
1689 } |
|
1690 #endif // __WINS__ |
|
1691 } |
|
1692 |
|
1693 void HcrRealSettingDiscovery() |
|
1694 { |
|
1695 test.Next(_L("Setting Discovery")); |
|
1696 TInt r; |
|
1697 TCategoryUid cat; |
|
1698 test.Printf(_L("Category Element Type Len Value\n")); |
|
1699 test.Printf(_L("--------------------------------------------------\n")); |
|
1700 for (cat = KHCRUID_ALLOCATED_MIN; cat <= KHCRUID_ALLOCATED_MAX; cat++) |
|
1701 { |
|
1702 TInt nosettings; |
|
1703 nosettings = HcrSimTest.FindNumSettingsInCategory(cat); |
|
1704 test_Compare(0, <=, nosettings); |
|
1705 if (nosettings > 0) |
|
1706 { |
|
1707 TUint32 numfound; |
|
1708 TElementId* elids; |
|
1709 TSettingType* types; |
|
1710 TUint16* lens; |
|
1711 elids = (TElementId*) User::Alloc(nosettings * sizeof(TElementId)); |
|
1712 test_NotNull(elids); |
|
1713 types = (TSettingType*) User::Alloc(nosettings * sizeof(TSettingType)); |
|
1714 test_NotNull(types); |
|
1715 lens = (TUint16*) User::Alloc(nosettings * sizeof(TUint16)); |
|
1716 test_NotNull(lens); |
|
1717 r = HcrSimTest.FindSettings(cat, nosettings, numfound, elids, types, lens); |
|
1718 test_Equal(nosettings, r); |
|
1719 test_Equal(nosettings, numfound); |
|
1720 TInt i; |
|
1721 for (i = 0; i < nosettings; i++) |
|
1722 { |
|
1723 TSettingId id(cat, *(elids + i)); |
|
1724 test.Printf(_L("%08x %08x %08x %04x "), cat, *(elids + i), *(types + i), *(lens + i)); |
|
1725 switch (*(types + i)) |
|
1726 { |
|
1727 case ETypeInt32: |
|
1728 { |
|
1729 TInt32 val; |
|
1730 r = HcrSimTest.GetInt(id, val); |
|
1731 test_KErrNone(r); |
|
1732 test.Printf(_L("%08x"), val); |
|
1733 break; |
|
1734 } |
|
1735 case ETypeInt16: |
|
1736 { |
|
1737 TInt16 val; |
|
1738 r = HcrSimTest.GetInt(id, val); |
|
1739 test_KErrNone(r); |
|
1740 test.Printf(_L("%04x"), val); |
|
1741 break; |
|
1742 } |
|
1743 case ETypeInt8: |
|
1744 { |
|
1745 TInt8 val; |
|
1746 r = HcrSimTest.GetInt(id, val); |
|
1747 test_KErrNone(r); |
|
1748 test.Printf(_L("%02x"), val); |
|
1749 break; |
|
1750 } |
|
1751 case ETypeBool: |
|
1752 { |
|
1753 TBool val; |
|
1754 r = HcrSimTest.GetBool(id, val); |
|
1755 test_KErrNone(r); |
|
1756 test.Printf(_L("%b"), val ? 1 : 0); |
|
1757 break; |
|
1758 } |
|
1759 case ETypeUInt32: |
|
1760 { |
|
1761 TUint32 val; |
|
1762 r = HcrSimTest.GetUInt(id, val); |
|
1763 test_KErrNone(r); |
|
1764 test.Printf(_L("%08x"), val); |
|
1765 break; |
|
1766 } |
|
1767 case ETypeUInt16: |
|
1768 { |
|
1769 TUint16 val; |
|
1770 r = HcrSimTest.GetUInt(id, val); |
|
1771 test_KErrNone(r); |
|
1772 test.Printf(_L("%04x"), val); |
|
1773 break; |
|
1774 } |
|
1775 case ETypeUInt8: |
|
1776 { |
|
1777 TUint8 val; |
|
1778 r = HcrSimTest.GetUInt(id, val); |
|
1779 test_KErrNone(r); |
|
1780 test.Printf(_L("%02x"), val); |
|
1781 break; |
|
1782 } |
|
1783 case ETypeLinAddr: |
|
1784 { |
|
1785 TLinAddr val; |
|
1786 r = HcrSimTest.GetLinAddr(id, val); |
|
1787 test_KErrNone(r); |
|
1788 test.Printf(_L("%08x"), val); |
|
1789 break; |
|
1790 } |
|
1791 case ETypeBinData: |
|
1792 { |
|
1793 TBuf8<KMaxSettingLength> dval; |
|
1794 TUint8* pval; |
|
1795 pval = (TUint8*) User::Alloc(*(lens + i)); |
|
1796 test_NotNull(pval); |
|
1797 // |
|
1798 r = HcrSimTest.GetData(id, dval); |
|
1799 test_KErrNone(r); |
|
1800 test_Equal(*(lens + i), dval.Length()); |
|
1801 // |
|
1802 TUint16 actuallength; |
|
1803 r = HcrSimTest.GetData(id, *(lens + i), pval, actuallength); |
|
1804 test_KErrNone(r); |
|
1805 test_Equal(*(lens + i), actuallength); |
|
1806 // |
|
1807 TInt j; |
|
1808 for (j = 0; j < 6 && j < dval.Length(); j++) |
|
1809 { |
|
1810 test.Printf(_L("%02x "), dval[j]); |
|
1811 } |
|
1812 |
|
1813 // |
|
1814 User::Free(pval); |
|
1815 break; |
|
1816 } |
|
1817 case ETypeText8: |
|
1818 { |
|
1819 TBuf8<KMaxSettingLength> dval; |
|
1820 TText8* pval; |
|
1821 pval = (TText8*) User::Alloc(*(lens + i)); |
|
1822 test_NotNull(pval); |
|
1823 // |
|
1824 r = HcrSimTest.GetString(id, dval); |
|
1825 test_KErrNone(r); |
|
1826 test_Equal(*(lens + i), dval.Length()); |
|
1827 // |
|
1828 TUint16 actuallength; |
|
1829 r = HcrSimTest.GetString(id, *(lens + i), pval, actuallength); |
|
1830 test_KErrNone(r); |
|
1831 test_Equal(*(lens + i), actuallength); |
|
1832 // |
|
1833 TInt j; |
|
1834 for (j = 0; j < 15 && j < dval.Length(); j++) |
|
1835 { |
|
1836 test.Printf(_L("%c "), dval[j]); |
|
1837 } |
|
1838 // |
|
1839 User::Free(pval); |
|
1840 break; |
|
1841 } |
|
1842 case ETypeArrayInt32: |
|
1843 { |
|
1844 TInt32* pval; |
|
1845 pval = (TInt32*) User::Alloc(*(lens + i)); |
|
1846 test_NotNull(pval); |
|
1847 // |
|
1848 TUint16 actuallength; |
|
1849 r = HcrSimTest.GetArray(id, *(lens + i), pval, actuallength); |
|
1850 test_KErrNone(r); |
|
1851 // |
|
1852 test_Equal(*(lens + i), actuallength); |
|
1853 // |
|
1854 TUint j; |
|
1855 for (j = 0; j < 2 && j < actuallength / sizeof(TInt32); j++) |
|
1856 { |
|
1857 test.Printf(_L("%08x "), pval[0]); |
|
1858 } |
|
1859 // |
|
1860 User::Free(pval); |
|
1861 break; |
|
1862 } |
|
1863 case ETypeArrayUInt32: |
|
1864 { |
|
1865 TUint32* pval; |
|
1866 pval = (TUint32*) User::Alloc(*(lens + i)); |
|
1867 test_NotNull(pval); |
|
1868 // |
|
1869 TUint16 actuallength; |
|
1870 r = HcrSimTest.GetArray(id, *(lens + i), pval, actuallength); |
|
1871 test_KErrNone(r); |
|
1872 // |
|
1873 TUint j; |
|
1874 for (j = 0; j < 2 && j < actuallength / sizeof(TUint32); j++) |
|
1875 { |
|
1876 test.Printf(_L("%08x "), pval[0]); |
|
1877 } |
|
1878 // |
|
1879 test_Equal(*(lens + i), actuallength); |
|
1880 User::Free(pval); |
|
1881 break; |
|
1882 } |
|
1883 case ETypeInt64: |
|
1884 { |
|
1885 TInt64 val; |
|
1886 r = HcrSimTest.GetInt(id, val); |
|
1887 test_KErrNone(r); |
|
1888 test.Printf(_L("%016lx"), val); |
|
1889 |
|
1890 break; |
|
1891 } |
|
1892 case ETypeUInt64: |
|
1893 { |
|
1894 TUint64 val; |
|
1895 r = HcrSimTest.GetUInt(id, val); |
|
1896 test_KErrNone(r); |
|
1897 test.Printf(_L("%016lx"), val); |
|
1898 break; |
|
1899 } |
|
1900 default: |
|
1901 test(EFalse); |
|
1902 } |
|
1903 test.Printf(_L("\n")); |
|
1904 } |
|
1905 User::Free(elids); |
|
1906 User::Free(types); |
|
1907 User::Free(lens); |
|
1908 } |
|
1909 } |
|
1910 } |
|
1911 void HcrRealRetrieveKernelExtensionTestResults() |
|
1912 { |
|
1913 test.Next(_L("Retrieve kernel extension test results")); |
|
1914 TInt r; |
|
1915 TInt kextline; |
|
1916 TInt kexterror; |
|
1917 r = HcrSimTest.GetInitExtensionTestResults(kextline, kexterror); |
|
1918 test_KErrNone(r); |
|
1919 if (kextline == -1) |
|
1920 { |
|
1921 test.Printf(_L("Test not run\n")); |
|
1922 } |
|
1923 else if (kextline == 0) |
|
1924 { |
|
1925 test.Printf(_L("Test passed\n")); |
|
1926 } |
|
1927 else |
|
1928 { |
|
1929 test.Printf(_L("Test kernel extension error at line %d (error %d)\n"), kextline, kexterror); |
|
1930 test(EFalse); |
|
1931 } |
|
1932 } |
|
1933 |
|
1934 void HcrRealTests(const TDesC& aDriver) |
|
1935 { |
|
1936 test.Next(_L("HCR real tests")); |
|
1937 test.Start(_L("Load LDD")); |
|
1938 test.Printf(_L("%S\n"), &aDriver); |
|
1939 TInt r; |
|
1940 r = User::LoadLogicalDevice(aDriver); |
|
1941 if (r == KErrNotFound) |
|
1942 { |
|
1943 test.Printf(_L("%S not found. Skipping tests.\n"), &aDriver); |
|
1944 } |
|
1945 else |
|
1946 { |
|
1947 if (r == KErrAlreadyExists) |
|
1948 { |
|
1949 test.Printf(_L("Unload Device Driver and load it again\n")); |
|
1950 r = User::FreeLogicalDevice(aDriver); |
|
1951 test_KErrNone(r); |
|
1952 r = User::LoadLogicalDevice(aDriver); |
|
1953 } |
|
1954 test_KErrNone(r); |
|
1955 r = HcrSimTest.Open(aDriver); |
|
1956 test_KErrNone(r); |
|
1957 // |
|
1958 HcrRealRetrieveKernelExtensionTestResults(); |
|
1959 HcrRealSettingDiscovery(); |
|
1960 // |
|
1961 test.Next(_L("Close LDD")); |
|
1962 HcrSimTest.Close(); |
|
1963 r = User::FreeLogicalDevice(aDriver); |
|
1964 test_KErrNone(r); |
|
1965 } |
|
1966 test.End(); |
|
1967 } |
|
1968 |
|
1969 void HcrSimBenchmarkTests(const TDesC& aDriver) |
|
1970 { |
|
1971 test.Next(_L("Simulated HCR Benchmark")); |
|
1972 test.Start(_L("Initialisation")); |
|
1973 test.Printf(_L("%S\n"), &aDriver); |
|
1974 TInt r; |
|
1975 r = User::LoadLogicalDevice(aDriver); |
|
1976 if (r == KErrAlreadyExists) |
|
1977 { |
|
1978 test.Printf(_L("Unload Device Driver and load it again\n")); |
|
1979 r = User::FreeLogicalDevice(aDriver); |
|
1980 test_KErrNone(r); |
|
1981 r = User::LoadLogicalDevice(aDriver); |
|
1982 test_KErrNone(r); |
|
1983 } |
|
1984 else |
|
1985 { |
|
1986 test_KErrNone(r); |
|
1987 } |
|
1988 r = HcrSimTest.Open(aDriver); |
|
1989 test_KErrNone(r); |
|
1990 r = HcrSimTest.InitExtension(); |
|
1991 test_KErrNone(r); |
|
1992 r = HcrSimTest.CheckIntegrity(); |
|
1993 test_KErrNone(r); |
|
1994 |
|
1995 test.Next(_L("Get Setting")); |
|
1996 // Timings in ms |
|
1997 TUint32 int1 = 0; |
|
1998 TUint32 int1000 = 0; |
|
1999 TUint32 array1 = 0; |
|
2000 TUint32 array1000 = 0; |
|
2001 TUint32 des1 = 0; |
|
2002 TUint32 des1000 = 0; |
|
2003 TUint32 fns = 0; |
|
2004 TUint32 fs = 0; |
|
2005 TUint32 gts = 0; |
|
2006 TUint32 gws = 0; |
|
2007 _LIT(KTestBenchLine, "%-6d %-6d %-6d %-6d %-6d %-6d %-6d %-6d %-6d %-6d\n"); |
|
2008 test.Printf(_L("HCR Int1 Int1000 Arr1 Arr1000 Des1 Des1000 FNS FS GTS GWS\n")); |
|
2009 // Default configuration |
|
2010 TSettingId idint1(1, 1); |
|
2011 TSettingId idstring1(KTestCategories[2], 0x6000); |
|
2012 test_KErrNone(HcrSimTest.BenchmarkGetSettingInt(idint1, int1)); |
|
2013 test_KErrNone(HcrSimTest.BenchmarkGetSettingArray(idstring1, array1)); |
|
2014 test_KErrNone(HcrSimTest.BenchmarkGetSettingDes(idstring1, des1)); |
|
2015 test.Printf(_L("C?? ")); |
|
2016 test.Printf(KTestBenchLine, int1, int1000, array1, array1000, des1, des1000, fns, fs, gts, gws); |
|
2017 |
|
2018 r = HcrSimTest.SwitchRepository(KTestClearRepos, HCRInternal::ECoreRepos); |
|
2019 test_KErrNone(r); |
|
2020 r = HcrSimTest.SwitchRepository(KTestClearRepos, HCRInternal::EOverrideRepos); |
|
2021 test_KErrNone(r); |
|
2022 r = HcrSimTest.CheckIntegrity(); |
|
2023 test_KErrNone(r); |
|
2024 test_KErrNone(HcrSimTest.BenchmarkGetSettingInt(idint1, int1)); |
|
2025 test_KErrNone(HcrSimTest.BenchmarkGetSettingArray(idstring1, array1)); |
|
2026 test_KErrNone(HcrSimTest.BenchmarkGetSettingDes(idstring1, des1)); |
|
2027 test.Printf(_L("C__ ")); |
|
2028 test.Printf(KTestBenchLine, int1, int1000, array1, array1000, des1, des1000, fns, fs, gts, gws); |
|
2029 // |
|
2030 TSettingId idint1000(KTestBenchmarkCategoryId, 1000); |
|
2031 TSettingId idstring1000(KTestBenchmarkCategoryId, 1001); |
|
2032 r = HcrSimTest.SwitchRepository(KTestMegaLarge1, HCRInternal::ECoreRepos); |
|
2033 test_KErrNone(r); |
|
2034 r = HcrSimTest.CheckIntegrity(); |
|
2035 test_KErrNone(r); |
|
2036 test_KErrNone(HcrSimTest.BenchmarkGetSettingInt(idint1, int1)); |
|
2037 test_KErrNone(HcrSimTest.BenchmarkGetSettingInt(idint1000, int1000)); |
|
2038 test_KErrNone(HcrSimTest.BenchmarkGetSettingArray(idstring1, array1)); |
|
2039 test_KErrNone(HcrSimTest.BenchmarkGetSettingArray(idstring1000, array1000)); |
|
2040 test_KErrNone(HcrSimTest.BenchmarkGetSettingDes(idstring1, des1)); |
|
2041 test_KErrNone(HcrSimTest.BenchmarkGetSettingDes(idstring1000, des1000)); |
|
2042 |
|
2043 test_Equal(KTestBenchmarkNumberOfSettingsInCategory, HcrSimTest.BenchmarkFindNumSettingsInCategory(KTestBenchmarkCategoryId, fns)); |
|
2044 test_Equal(KTestBenchmarkNumberOfSettingsInCategory, HcrSimTest.BenchmarkFindSettings(KTestBenchmarkCategoryId, fs)); |
|
2045 test_KErrNone(HcrSimTest.BenchmarkGetTypeAndSize(idstring1000, gts)); |
|
2046 test_Equal(KTestBenchmarkNumberOfSettingsInCategory - 1, HcrSimTest.BenchmarkGetWordSettings(KTestBenchmarkCategoryId, gws)); |
|
2047 |
|
2048 test.Printf(_L("CF_ ")); |
|
2049 test.Printf(KTestBenchLine, int1, int1000, array1, array1000, des1, des1000, fns, fs, gts, gws); |
|
2050 // |
|
2051 r = HcrSimTest.SwitchRepository(KTestMegaLarge2, HCRInternal::EOverrideRepos); |
|
2052 test_KErrNone(r); |
|
2053 r = HcrSimTest.CheckIntegrity(); |
|
2054 test_KErrNone(r); |
|
2055 test_KErrNone(HcrSimTest.BenchmarkGetSettingInt(idint1, int1)); |
|
2056 test_KErrNone(HcrSimTest.BenchmarkGetSettingInt(idint1000, int1000)); |
|
2057 test_KErrNone(HcrSimTest.BenchmarkGetSettingArray(idstring1, array1)); |
|
2058 test_KErrNone(HcrSimTest.BenchmarkGetSettingArray(idstring1000, array1000)); |
|
2059 test_KErrNone(HcrSimTest.BenchmarkGetSettingDes(idstring1, des1)); |
|
2060 test_KErrNone(HcrSimTest.BenchmarkGetSettingDes(idstring1000, des1000)); |
|
2061 |
|
2062 test_Equal(KTestBenchmarkNumberOfSettingsInCategory, HcrSimTest.BenchmarkFindNumSettingsInCategory(KTestBenchmarkCategoryId, fns)); |
|
2063 test_Equal(KTestBenchmarkNumberOfSettingsInCategory, HcrSimTest.BenchmarkFindSettings(KTestBenchmarkCategoryId, fs)); |
|
2064 test_KErrNone(HcrSimTest.BenchmarkGetTypeAndSize(idstring1000, gts)); |
|
2065 test_Equal(KTestBenchmarkNumberOfSettingsInCategory - 1, HcrSimTest.BenchmarkGetWordSettings(KTestBenchmarkCategoryId, gws)); |
|
2066 |
|
2067 test.Printf(_L("CFN ")); |
|
2068 test.Printf(KTestBenchLine, int1, int1000, array1, array1000, des1, des1000, fns, fs, gts, gws); |
|
2069 // |
|
2070 r = HcrSimTest.SwitchRepository(KTestClearRepos, HCRInternal::EOverrideRepos); |
|
2071 test_KErrNone(r); |
|
2072 r = HcrSimTest.CheckIntegrity(); |
|
2073 test_KErrNone(r); |
|
2074 test_KErrNone(HcrSimTest.BenchmarkGetSettingInt(idint1, int1)); |
|
2075 test_KErrNone(HcrSimTest.BenchmarkGetSettingInt(idint1000, int1000)); |
|
2076 test_KErrNone(HcrSimTest.BenchmarkGetSettingArray(idstring1, array1)); |
|
2077 test_KErrNone(HcrSimTest.BenchmarkGetSettingArray(idstring1000, array1000)); |
|
2078 test_KErrNone(HcrSimTest.BenchmarkGetSettingDes(idstring1, des1)); |
|
2079 test_KErrNone(HcrSimTest.BenchmarkGetSettingDes(idstring1000, des1000)); |
|
2080 |
|
2081 test_Equal(KTestBenchmarkNumberOfSettingsInCategory, HcrSimTest.BenchmarkFindNumSettingsInCategory(KTestBenchmarkCategoryId, fns)); |
|
2082 test_Equal(KTestBenchmarkNumberOfSettingsInCategory, HcrSimTest.BenchmarkFindSettings(KTestBenchmarkCategoryId, fs)); |
|
2083 test_KErrNone(HcrSimTest.BenchmarkGetTypeAndSize(idstring1000, gts)); |
|
2084 test_Equal(KTestBenchmarkNumberOfSettingsInCategory - 1, HcrSimTest.BenchmarkGetWordSettings(KTestBenchmarkCategoryId, gws)); |
|
2085 |
|
2086 test.Printf(_L("C_N ")); |
|
2087 test.Printf(KTestBenchLine, int1, int1000, array1, array1000, des1, des1000, fns, fs, gts, gws); |
|
2088 |
|
2089 test.Next(_L("Unload LDD")); |
|
2090 HcrSimTest.Close(); |
|
2091 r = User::FreeLogicalDevice(aDriver); |
|
2092 test_KErrNone(r); |
|
2093 test.End(); |
|
2094 } |
|
2095 |
|
2096 void HcrRealBenchmarkTests(const TDesC& aDriver) |
|
2097 { |
|
2098 TInt r; |
|
2099 test.Next(_L("Real HCR Benchmark")); |
|
2100 test.Start(_L("Initialisation")); |
|
2101 test.Printf(_L("%S\n"), &aDriver); |
|
2102 r = User::LoadLogicalDevice(aDriver); |
|
2103 if (r == KErrNotFound) |
|
2104 { |
|
2105 test.Printf(_L("%S not found. Skipping tests.\n"), &aDriver); |
|
2106 } |
|
2107 else |
|
2108 { |
|
2109 if (r == KErrAlreadyExists) |
|
2110 { |
|
2111 test.Printf(_L("Unload Device Driver and load it again\n")); |
|
2112 r = User::FreeLogicalDevice(aDriver); |
|
2113 test_KErrNone(r); |
|
2114 r = User::LoadLogicalDevice(aDriver); |
|
2115 } |
|
2116 test_KErrNone(r); |
|
2117 r = HcrSimTest.Open(aDriver); |
|
2118 test_KErrNone(r); |
|
2119 // |
|
2120 test.Next(_L("Close LDD")); |
|
2121 HcrSimTest.Close(); |
|
2122 r = User::FreeLogicalDevice(aDriver); |
|
2123 test_KErrNone(r); |
|
2124 } |
|
2125 test.End(); |
|
2126 } |
|
2127 |
|
2128 GLDEF_C TInt E32Main() |
|
2129 { |
|
2130 __UHEAP_MARK; |
|
2131 |
|
2132 test.Title(); |
|
2133 test.Start(_L("HCR Test Suite")); |
|
2134 |
|
2135 |
|
2136 |
|
2137 //Order the the test lists in descend(the setting with the smallest |
|
2138 //setting Id is first) |
|
2139 TLinearOrder<SSettingC> order(CompareEntries); |
|
2140 //Build the ordered ids arrays |
|
2141 RArray<SSettingC> rSettingsList(sizeof(SSettingC), SettingsList, |
|
2142 sizeof(SettingsList)/sizeof(SettingsList[0])); |
|
2143 |
|
2144 rSettingsList.Sort(order); |
|
2145 |
|
2146 RArray<SSettingC> rSettingsList2(sizeof(SSettingC), SettingsList2, |
|
2147 sizeof(SettingsList2)/sizeof(SettingsList2[0])); |
|
2148 rSettingsList2.Sort(order); |
|
2149 |
|
2150 RArray<SSettingC> rSettingsList3(sizeof(SSettingC), SettingsList3, |
|
2151 sizeof(SettingsList3)/sizeof(SettingsList3[0])); |
|
2152 rSettingsList3.Sort(order); |
|
2153 |
|
2154 RArray<SSettingC> rSettingsList4(sizeof(SSettingC), SettingsList4, |
|
2155 sizeof(SettingsList4)/sizeof(SettingsList4[0])); |
|
2156 rSettingsList4.Sort(order); |
|
2157 |
|
2158 RArray<SSettingC> rSettingsList5(sizeof(SSettingC), SettingsList5, |
|
2159 sizeof(SettingsList5)/sizeof(SettingsList5[0])); |
|
2160 rSettingsList5.Sort(order); |
|
2161 |
|
2162 RArray<SSettingC> rSettingsList6(sizeof(SSettingC), SettingsList6, |
|
2163 sizeof(SettingsList6)/sizeof(SettingsList6[0])); |
|
2164 rSettingsList6.Sort(order); |
|
2165 |
|
2166 RArray<SSettingC> rSettingsList7(sizeof(SSettingC), SettingsList7, |
|
2167 sizeof(SettingsList7)/sizeof(SettingsList7[0])); |
|
2168 rSettingsList7.Sort(order); |
|
2169 |
|
2170 |
|
2171 //Functional API tests |
|
2172 RomHeaderTests(); |
|
2173 HcrRealTests(KTestHcrRealOwn); |
|
2174 HcrRealTests(KTestHcrRealClient); |
|
2175 HcrPslTests(KTestHcrSimOwn); |
|
2176 HcrPslTests(KTestHcrSimClient); |
|
2177 HcrSimTests(KTestHcrSimOwn); |
|
2178 HcrSimTests(KTestHcrSimClient); |
|
2179 |
|
2180 |
|
2181 //Benchmark tests |
|
2182 HcrSimBenchmarkTests(KTestHcrSimOwn); |
|
2183 HcrSimBenchmarkTests(KTestHcrSimClient); |
|
2184 HcrRealBenchmarkTests(KTestHcrRealOwn); |
|
2185 HcrRealBenchmarkTests(KTestHcrRealClient); |
|
2186 |
|
2187 test.End(); |
|
2188 test.Close(); |
|
2189 |
|
2190 __UHEAP_MARKEND; |
|
2191 return KErrNone; |
|
2192 } |