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1 // Copyright (c) 2007-2009 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 // f32test\locl\localeutils\T_SURROGATEPAIR.cpp |
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15 // |
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16 // |
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17 |
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18 #define __E32TEST_EXTENSION__ |
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19 |
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20 #include <e32test.h> |
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21 #include <HAL.H> |
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22 #include <f32fsys.h> |
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23 #include <f32dbg.h> |
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24 #include "..\server\t_server.h" |
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25 |
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26 RTest test(_L("T_SURROGATEPAIR")); |
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27 |
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28 /* |
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29 * Helper function to capture and return any MakeFile error code. |
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30 */ |
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31 TInt SurrogatePair_MakeFile(const TDesC& aFileName) |
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32 { |
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33 RFile file; |
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34 TInt r=file.Replace(TheFs,aFileName,0); |
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35 file.Close(); |
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36 return r; |
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37 } |
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38 |
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39 /* |
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40 * Tests given ShortName against LongName and vice versa for a File Entry. |
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41 */ |
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42 void doFileNameTest(const TDesC& aLongName, const TDesC& aShortName) |
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43 { |
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44 TFileName lgnFullPath; |
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45 TFileName shnFullPath; |
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46 TFileName lgn; |
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47 TFileName shn; |
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48 |
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49 TInt r = TheFs.SessionPath(gSessionPath); |
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50 test_KErrNone(r); |
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51 lgnFullPath = gSessionPath; |
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52 lgnFullPath += aLongName; |
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53 |
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54 MakeFile(lgnFullPath); |
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55 |
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56 // Check short name |
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57 r = TheFs.GetShortName(lgnFullPath, shn); |
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58 test_KErrNone(r); |
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59 r = shn.Compare(aShortName); |
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60 test(r==0); |
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61 |
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62 // Check long name |
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63 shnFullPath = gSessionPath; |
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64 shnFullPath += aShortName; |
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65 |
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66 r = TheFs.GetLongName(shnFullPath, lgn); |
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67 test_KErrNone(r); |
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68 r = lgn.Compare(aLongName); |
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69 test(r==0); |
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70 |
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71 test_KErrNone(TheFs.Delete(lgnFullPath)); |
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72 } |
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73 |
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74 /* |
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75 * Tests given ShortName against LongName and vice versa for a Directory Entry. |
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76 */ |
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77 void doDirNameTest(const TDesC& aLongName, const TDesC& aShortName) |
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78 { |
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79 TBuf<KMaxFileName> longDirNamePath; |
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80 TBuf<KMaxFileName> shortDirNamePath; |
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81 TBuf<KMaxFileName> longName; |
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82 TBuf<KMaxFileName> shortName; |
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83 longDirNamePath = gSessionPath; |
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84 longDirNamePath += aLongName; |
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85 longDirNamePath.Append('\\'); |
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86 |
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87 // Create new directory and check creation |
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88 TInt r = TheFs.MkDir(longDirNamePath); |
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89 test_KErrNone(r); |
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90 TUint dumUint=0; |
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91 CDir* dumDir; |
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92 r= TheFs.GetDir(longDirNamePath, dumUint, dumUint, dumDir); |
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93 test_KErrNone(r); |
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94 test_NotNull(dumDir); |
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95 delete dumDir; |
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96 |
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97 // Check short name |
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98 r = TheFs.GetShortName(longDirNamePath, shortName); |
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99 test_KErrNone(r); |
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100 r = shortName.Compare(aShortName); |
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101 test(r==0); |
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102 |
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103 // Check long name |
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104 shortDirNamePath = gSessionPath; |
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105 shortDirNamePath += shortName; |
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106 shortDirNamePath.Append('\\'); |
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107 r = TheFs.GetLongName(shortDirNamePath, longName); |
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108 test_KErrNone(r); |
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109 r = longName.Compare(aLongName); |
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110 test(r==0); |
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111 |
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112 r = TheFs.RmDir(longDirNamePath); |
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113 test_KErrNone(r); |
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114 } |
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115 |
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116 /* |
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117 * Tests File entry and Dir entry. |
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118 */ |
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119 void TestConversion(const TDesC& aLongName, const TDesC& aShortName) |
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120 { |
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121 doFileNameTest(aLongName, aShortName); |
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122 doDirNameTest(aLongName, aShortName); |
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123 } |
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124 |
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125 /* |
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126 * Tests different characters for its validity and conversion in absence of cp dll. |
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127 * Expects ReplacementForUnconvertibleUnicodeCharacters : "_" : UNDERSCORE for all |
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128 * Illegal Characters |
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129 */ |
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130 void TestShortNameCharacter() |
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131 { |
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132 test.Next(_L("++TestShortNameCharacter")); |
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133 TInt r; |
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134 |
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135 // one-byte chars |
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136 _LIT16(Uni_1, "\x0019.TXT"); |
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137 _LIT16(Uni_1_ShortName, "_.TXT"); |
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138 TestConversion( Uni_1, Uni_1_ShortName); |
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139 |
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140 _LIT16(Uni_2, "\x0020.TXT"); |
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141 _LIT(Uni_2_ShortName, "_.TXT"); |
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142 TestConversion( Uni_2, Uni_2_ShortName); |
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143 |
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144 _LIT16(Uni_3, "\x0021.TXT"); |
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145 _LIT16(Uni_3_ShortName, "\x0021.TXT"); |
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146 TestConversion( Uni_3, Uni_3_ShortName); |
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147 |
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148 _LIT16(Uni_4, "\x0079"); // y lower case |
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149 _LIT16(Uni_4_ShortName, "\x0059"); // Y upper case |
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150 TestConversion( Uni_4, Uni_4_ShortName); |
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151 |
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152 _LIT16(Uni_5, "\x0080"); |
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153 _LIT16(Uni_5_ShortName, "_"); |
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154 TestConversion( Uni_5, Uni_5_ShortName); |
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155 |
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156 _LIT16(Uni_6, "\x0081"); |
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157 _LIT16(Uni_6_ShortName, "_"); |
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158 TestConversion( Uni_6, Uni_6_ShortName); |
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159 |
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160 _LIT16(Uni_7, "\x00fe"); |
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161 _LIT16(Uni_7_ShortName, "_"); |
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162 TestConversion( Uni_7, Uni_7_ShortName); |
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163 |
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164 _LIT16(Uni_8, "\x00ff"); |
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165 _LIT16(Uni_8_ShortName, "_"); |
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166 TestConversion( Uni_8, Uni_8_ShortName); |
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167 |
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168 // two-byte chars |
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169 _LIT16(Uni_9, "\x0100"); |
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170 _LIT16(Uni_9_ShortName, "_"); |
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171 TestConversion( Uni_9, Uni_9_ShortName); |
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172 |
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173 _LIT16(Uni_10, "\x0101"); |
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174 _LIT16(Uni_10_ShortName, "_"); |
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175 TestConversion( Uni_10, Uni_10_ShortName); |
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176 |
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177 _LIT16(Uni_11, "\x0ffe"); |
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178 _LIT16(Uni_11_ShortName, "_"); |
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179 TestConversion( Uni_11, Uni_11_ShortName); |
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180 |
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181 _LIT16(Uni_12, "\x0fff"); |
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182 _LIT16(Uni_12_ShortName, "_"); |
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183 TestConversion( Uni_12, Uni_12_ShortName); |
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184 |
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185 _LIT16(Uni_13, "\x1000"); |
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186 _LIT16(Uni_13_ShortName, "_"); |
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187 TestConversion( Uni_13, Uni_13_ShortName); |
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188 |
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189 _LIT16(Uni_14, "\x1001"); |
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190 _LIT16(Uni_14_ShortName, "_"); |
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191 TestConversion( Uni_14, Uni_14_ShortName); |
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192 |
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193 _LIT16(Uni_15, "\x2999.TXT"); |
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194 _LIT16(Uni_15_ShortName, "_.TXT"); |
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195 TestConversion( Uni_15, Uni_15_ShortName); |
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196 |
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197 _LIT16(Uni_16, "\x4E02.TXT"); |
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198 _LIT16(Uni_16_ShortName, "_.TXT"); |
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199 TestConversion( Uni_16, Uni_16_ShortName); |
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200 |
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201 _LIT16(Uni_17, "\x4E02.TXT"); |
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202 _LIT(Uni_17_ShortName, "_.TXT"); |
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203 TestConversion( Uni_17, Uni_17_ShortName); |
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204 |
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205 _LIT16(Uni_18, "\xfffe"); |
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206 _LIT16(Uni_18_ShortName, "_"); |
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207 TestConversion( Uni_18, Uni_18_ShortName); |
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208 |
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209 _LIT16(Uni_19, "\xffff"); |
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210 _LIT16(Uni_19_ShortName, "_"); |
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211 TestConversion( Uni_19, Uni_19_ShortName); |
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212 |
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213 // four-byte surrogate pairs |
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214 _LIT16(Uni_20, "\xd840\xdc00"); |
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215 _LIT16(Uni_20_ShortName, "_"); |
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216 TestConversion( Uni_20, Uni_20_ShortName); |
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217 |
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218 _LIT16(Uni_21, "\xd840\xdc01"); |
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219 _LIT16(Uni_21_ShortName, "_"); |
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220 TestConversion( Uni_21, Uni_21_ShortName); |
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221 |
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222 _LIT16(Uni_22, "\xD87F\xdffe"); |
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223 _LIT16(Uni_22_ShortName, "_"); |
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224 TestConversion( Uni_22, Uni_22_ShortName); |
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225 |
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226 _LIT16(Uni_23, "\xD87F\xdfff"); |
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227 _LIT16(Uni_23_ShortName, "_"); |
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228 TestConversion( Uni_23, Uni_23_ShortName); |
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229 |
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230 // surrogate pair |
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231 _LIT16(Uni_24, "\xd840\xddad"); |
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232 _LIT16(Uni_24_ShortName, "_"); |
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233 TestConversion( Uni_24, Uni_24_ShortName); |
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234 |
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235 _LIT16(Uni_25, "\xd801\xdd00"); |
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236 _LIT16(Uni_25_ShortName, "_"); |
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237 TestConversion( Uni_25, Uni_25_ShortName); |
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238 |
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239 // corrupt surrogate in file name |
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240 _LIT16(KTest0xD800, "\xD800.TXT"); |
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241 r = SurrogatePair_MakeFile(KTest0xD800); |
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242 test(r==KErrBadName); |
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243 |
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244 // corrupt surrogate in file ext |
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245 _LIT16(KTest0xD800XT, "\xD684.\xD800XT"); |
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246 r = SurrogatePair_MakeFile(KTest0xD800XT); |
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247 test(r==KErrBadName); |
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248 |
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249 // corrupt surrogate in file ext |
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250 _LIT16(KTestTX0xD800, "\xD684.TX\xD800"); |
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251 r = SurrogatePair_MakeFile(KTestTX0xD800); |
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252 test(r==KErrBadName); |
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253 |
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254 // corrupt surrogate in file name |
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255 _LIT16(KTest0xDFFF, "\xDFFF.TXT"); |
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256 r = SurrogatePair_MakeFile(KTest0xDFFF); |
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257 test(r==KErrBadName); |
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258 |
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259 // corrupt surrogate in file ext |
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260 _LIT16(KTest0xDFFFXT, "\xD684.\xDFFFXT"); |
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261 r = SurrogatePair_MakeFile(KTest0xDFFFXT); |
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262 test(r==KErrBadName); |
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263 |
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264 // corrupt surrogate in file ext |
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265 _LIT16(KTestTX0xDFFF, "\xD684.TX\xDFFF"); |
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266 r = SurrogatePair_MakeFile(KTestTX0xDFFF); |
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267 test(r==KErrBadName); |
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268 |
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269 test.Next(_L("--TestShortNameCharacter")); |
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270 } |
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271 |
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272 void TestVolumeLabel() |
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273 { |
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274 test.Next(_L("++TestVolumeLabel")); |
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275 test.Next(_L("Test unicode volume labels")); |
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276 |
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277 TInt r = TheFs.SessionPath(gSessionPath); |
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278 test_KErrNone(r); |
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279 TInt driveNum; |
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280 r = TheFs.CharToDrive(gSessionPath[0], driveNum); |
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281 test_KErrNone(r); |
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282 |
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283 // Retrieves the original volume label |
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284 TVolumeInfo vInfo; |
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285 r = TheFs.Volume(vInfo, driveNum); |
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286 const TInt KVolumeLabelSize = 11; |
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287 TBuf<KVolumeLabelSize> originalVolumeLabel(vInfo.iName); |
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288 |
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289 // Tests setting volume label with 1 byte characters |
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290 _LIT(K1ByteVolumeLabel, "\x0079\x0079\x0079"); |
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291 _LIT(K1ByteVolumeLabel_ShortName, "\x0079\x0079\x0079"); |
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292 |
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293 r = TheFs.SetVolumeLabel(K1ByteVolumeLabel, driveNum); |
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294 test_KErrNone(r); |
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295 r = TheFs.Volume(vInfo, driveNum); |
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296 test_KErrNone(r); |
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297 r = vInfo.iName.Compare(K1ByteVolumeLabel_ShortName); |
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298 test_Equal(r, 0); |
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299 |
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300 // Tests setting volume label with 2 byte characters |
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301 _LIT(K2ByteVolumeLabel, "\x65B0\x65B0\x65B0"); |
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302 _LIT(K2ByteVolumeLabel_ShortName, "___"); |
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303 |
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304 r = TheFs.SetVolumeLabel(K2ByteVolumeLabel, driveNum); |
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305 test_KErrNone(r); |
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306 r = TheFs.Volume(vInfo, driveNum); |
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307 test_KErrNone(r); |
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308 r = vInfo.iName.Compare(K2ByteVolumeLabel_ShortName); |
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309 test_Equal(r, 0); |
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310 |
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311 // Tests setting volume label with surrogate pair |
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312 _LIT(KTestVolumeLabelSurrogatePair1, "\xD846\xDF1D\x0041\x0042"); |
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313 _LIT(KTestVolumeLabelSurrogatePair1_ShortName, "_AB"); |
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314 |
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315 r = TheFs.SetVolumeLabel(KTestVolumeLabelSurrogatePair1, driveNum); |
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316 test_KErrNone(r); |
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317 r = TheFs.Volume(vInfo, driveNum); |
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318 test_KErrNone(r); |
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319 r = vInfo.iName.Compare(KTestVolumeLabelSurrogatePair1_ShortName); |
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320 test_Equal(r, 0); |
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321 |
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322 _LIT(KTestVolumeLabelSurrogatePair2, "\x0041\x0042\xD846\xDF1D"); |
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323 _LIT(KTestVolumeLabelSurrogatePair2_ShortName, "AB_"); |
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324 |
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325 r = TheFs.SetVolumeLabel(KTestVolumeLabelSurrogatePair2, driveNum); |
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326 test_KErrNone(r); |
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327 r = TheFs.Volume(vInfo, driveNum); |
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328 test_KErrNone(r); |
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329 r = vInfo.iName.Compare(KTestVolumeLabelSurrogatePair2_ShortName); |
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330 test_Equal(r, 0); |
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331 |
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332 // Sets back the original volume label |
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333 r = TheFs.SetVolumeLabel(originalVolumeLabel, driveNum); |
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334 test_KErrNone(r); |
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335 |
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336 test.Next(_L("--TestVolumeLabel")); |
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337 } |
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338 |
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339 void TestConsistentShortNameGeneration() |
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340 { |
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341 test.Next(_L("++TestConsistentShortNameGeneration")); |
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342 test.Next(_L("Test consistent short name generation")); |
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343 |
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344 //unicode characters. |
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345 _LIT(KTestFileName1, "a\x65B0(bcd)"); |
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346 _LIT(KTestFileName1_ShortName, "A_(BCD)"); |
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347 _LIT(KTestFileName2, "ab\x65B0(cdef)"); |
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348 _LIT(KTestFileName2_ShortName, "AB_(CD~1"); |
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349 _LIT(KTestFileName3, "abc\x65B0(def)"); |
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350 _LIT(KTestFileName3_ShortName, "ABC_(D~1"); |
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351 _LIT(KTestFileName4, "abcd\x65B0(ef)"); |
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352 _LIT(KTestFileName4_ShortName, "ABCD_(~1"); |
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353 _LIT(KTestFileName5, "abcde\x65B0(f)"); |
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354 _LIT(KTestFileName5_ShortName, "ABCDE_~1"); |
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355 _LIT(KTestFileNameSurrogatePair1, "\x0041\x0308\x006F\xD846\xDF1D\x0042"); |
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356 _LIT(KTestFileNameSurrogatePair1_ShortName, "A_O_B"); |
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357 _LIT(KTestFileNameSurrogatePair2, "\xD846\xDF1D\x0041\x0042"); |
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358 _LIT(KTestFileNameSurrogatePair2_ShortName, "_AB"); |
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359 _LIT(KTestFileNameSurrogatePair3, "\x0041\x0042\xD846\xDF1D"); |
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360 _LIT(KTestFileNameSurrogatePair3_ShortName, "AB_"); |
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361 |
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362 // Test file creation and long/short name generation |
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363 TestConversion(KTestFileName1, KTestFileName1_ShortName); |
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364 TestConversion(KTestFileName2, KTestFileName2_ShortName); |
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365 TestConversion(KTestFileName3, KTestFileName3_ShortName); |
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366 TestConversion(KTestFileName4, KTestFileName4_ShortName); |
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367 TestConversion(KTestFileName5, KTestFileName5_ShortName); |
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368 TestConversion(KTestFileNameSurrogatePair1, KTestFileNameSurrogatePair1_ShortName); |
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369 TestConversion(KTestFileNameSurrogatePair2, KTestFileNameSurrogatePair2_ShortName); |
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370 TestConversion(KTestFileNameSurrogatePair3, KTestFileNameSurrogatePair3_ShortName); |
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371 |
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372 test.Next(_L("--TestConsistentShortNameGeneration")); |
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373 } |
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374 |
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375 void TestConsistentShortNameExtGeneration() |
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376 { |
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377 test.Next(_L("++TestConsistentShortNameExtGeneration")); |
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378 test.Next(_L("Test consistent short name extensions are generated")); |
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379 |
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380 // File names will be used for testing boundaries |
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381 _LIT(KTestFileNameExt1, "abcdefg.\xFFFF"); |
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382 _LIT(KTestFileNameExt1_ShortName, "ABCDEFG._"); |
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383 _LIT(KTestFileNameExt2, "abcdefg.t_"); |
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384 _LIT(KTestFileNameExt2_ShortName, "ABCDEFG.T_"); |
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385 _LIT(KTestFileNameExt3, "abcdefg.\xFFFFt"); |
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386 _LIT(KTestFileNameExt3_ShortName, "ABCDEFG._T"); |
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387 _LIT(KTestFileNameExt4, "abcdefg.\xFFFF\xFFFF"); |
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388 _LIT(KTestFileNameExt4_ShortName, "ABCDEFG.__"); |
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389 _LIT(KTestFileNameExtSurrogatePair1, "ABCDEFG.\xD846\xDF1D\x0041"); |
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390 _LIT(KTestFileNameExtSurrogatePair1_ShortName, "ABCDEFG._A"); |
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391 _LIT(KTestFileNameExtSurrogatePair2, "ABCDEFG.\x0041\xD846\xDF1D"); |
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392 _LIT(KTestFileNameExtSurrogatePair2_ShortName, "ABCDEFG.A_"); |
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393 |
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394 // Test file creation and long/short name generation |
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395 TestConversion(KTestFileNameExt1, KTestFileNameExt1_ShortName); |
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396 TestConversion(KTestFileNameExt2, KTestFileNameExt2_ShortName); |
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397 TestConversion(KTestFileNameExt3, KTestFileNameExt3_ShortName); |
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398 TestConversion(KTestFileNameExt4, KTestFileNameExt4_ShortName); |
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399 TestConversion(KTestFileNameExtSurrogatePair1, KTestFileNameExtSurrogatePair1_ShortName); |
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400 TestConversion(KTestFileNameExtSurrogatePair2, KTestFileNameExtSurrogatePair2_ShortName); |
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401 |
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402 test.Next(_L("--TestConsistentShortNameExtGeneration")); |
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403 } |
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404 |
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405 void TestDuplicateLongFileNames() |
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406 { |
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407 test.Next(_L("++TestDuplicateLongFileNames")); |
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408 test.Next(_L("Testing tilde and numbers (\"~n\") are applied correctly for multiple long-named files")); |
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409 |
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410 // These are to test "~1", "~2" behaviours when the first 8 bytes of new files |
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411 // are identical with existing files |
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412 _LIT(KTestFileName1, "ABCD\xFFFE(A).TXT"); |
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413 _LIT(KTestFileName1_ShortName, "ABCD_(A).TXT"); |
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414 _LIT(KTestFileName2, "ABCD\xFFFE(AB).TXT"); |
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415 _LIT(KTestFileName2_ShortName, "ABCD_(~1.TXT"); |
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416 _LIT(KTestFileName3, "ABCD\xFFFE(ABC).TXT"); |
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417 _LIT(KTestFileName3_ShortName, "ABCD_(~2.TXT"); |
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418 _LIT(KTestFileNameSurrogatePair1, "ABCD\xD846\xDF1D(ABC).TXT"); |
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419 _LIT(KTestFileNameSurrogatePair1_ShortName, "ABCD_(~3.TXT"); |
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420 _LIT(KTestFileNameSurrogatePair2, "ABCD\xD846\xDF1D(DEF).TXT"); |
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421 _LIT(KTestFileNameSurrogatePair2_ShortName, "ABCD_(~4.TXT"); |
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422 |
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423 TFileName sn; |
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424 MakeFile(KTestFileName1); |
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425 TInt r = TheFs.GetShortName(KTestFileName1, sn); |
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426 test_KErrNone(r); |
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427 r = sn.Compare(KTestFileName1_ShortName); |
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428 test_Equal(r, 0); |
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429 |
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430 MakeFile(KTestFileName2); |
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431 r = TheFs.GetShortName(KTestFileName2, sn); |
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432 test_KErrNone(r); |
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433 r = sn.Compare(KTestFileName2_ShortName); |
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434 test_Equal(r, 0); |
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435 |
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436 MakeFile(KTestFileName3); |
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437 r = TheFs.GetShortName(KTestFileName3, sn); |
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438 test_KErrNone(r); |
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439 r = sn.Compare(KTestFileName3_ShortName); |
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440 test_Equal(r, 0); |
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441 |
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442 MakeFile(KTestFileNameSurrogatePair1); |
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443 r = TheFs.GetShortName(KTestFileNameSurrogatePair1, sn); |
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444 test_KErrNone(r); |
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445 r = sn.Compare(KTestFileNameSurrogatePair1_ShortName); |
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446 test_Equal(r, 0); |
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447 |
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448 MakeFile(KTestFileNameSurrogatePair2); |
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449 r = TheFs.GetShortName(KTestFileNameSurrogatePair2, sn); |
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450 test_KErrNone(r); |
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451 r = sn.Compare(KTestFileNameSurrogatePair2_ShortName); |
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452 test_Equal(r, 0); |
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453 |
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454 test_KErrNone(TheFs.Delete(KTestFileName1)); |
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455 test_KErrNone(TheFs.Delete(KTestFileName2)); |
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456 test_KErrNone(TheFs.Delete(KTestFileName3)); |
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457 test_KErrNone(TheFs.Delete(KTestFileNameSurrogatePair1)); |
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458 test_KErrNone(TheFs.Delete(KTestFileNameSurrogatePair2)); |
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459 |
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460 test.Next(_L("--TestDuplicateLongFileNames")); |
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461 } |
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462 |
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463 void TestDuplicateLongDirNames() |
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464 { |
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465 test.Next(_L("++TestDuplicateLongDirNames")); |
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466 test.Next(_L("Testing tilde and number appended correctly for duplicate long name dirs")); |
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467 |
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468 TheFs.SessionPath(gSessionPath); |
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469 |
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470 // These are to test "~1", "~2" behaviours when the first 8 bytes of new directories |
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471 // are identical with existing directories |
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472 _LIT(KTestDirName1, "\\F32-TST\\T_SURROGATEPAIR\\ABCD\xFFFE(A)\\"); |
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473 _LIT(KTestDirName1_ShortName, "ABCD_(A)"); |
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474 _LIT(KTestDirName2, "\\F32-TST\\T_SURROGATEPAIR\\ABCD\xFFFE(AB)\\"); |
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475 _LIT(KTestDirName2_ShortName, "ABCD_(~1"); |
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476 _LIT(KTestDirName3, "\\F32-TST\\T_SURROGATEPAIR\\ABCD\xFFFE(ABC)\\"); |
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477 _LIT(KTestDirName3_ShortName, "ABCD_(~2"); |
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478 _LIT(KTestDirNameSurrogatePair1, "\\F32-TST\\T_SURROGATEPAIR\\ABCD\xD846\xDF1D(ABCD)\\"); |
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479 _LIT(KTestDirNameSurrogatePair1_ShortName, "ABCD_(~3"); |
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480 _LIT(KTestDirNameSurrogatePair2, "\\F32-TST\\T_SURROGATEPAIR\\ABCD\xD846\xDF1D(ABCDE)\\"); |
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481 _LIT(KTestDirNameSurrogatePair2_ShortName, "ABCD_(~4"); |
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482 |
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483 TFileName sn; |
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484 MakeDir(KTestDirName1); |
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485 TInt r = TheFs.GetShortName(KTestDirName1, sn); |
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486 test_KErrNone(r); |
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487 r = sn.Compare(KTestDirName1_ShortName); |
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488 test_Equal(r, 0); |
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489 |
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490 MakeDir(KTestDirName2); |
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491 r = TheFs.GetShortName(KTestDirName2, sn); |
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492 test_KErrNone(r); |
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493 r = sn.Compare(KTestDirName2_ShortName); |
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494 test_Equal(r, 0); |
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495 |
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496 MakeDir(KTestDirName3); |
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497 r = TheFs.GetShortName(KTestDirName3, sn); |
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498 test_KErrNone(r); |
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499 r = sn.Compare(KTestDirName3_ShortName); |
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500 test_Equal(r, 0); |
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501 |
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502 MakeDir(KTestDirNameSurrogatePair1); |
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503 r = TheFs.GetShortName(KTestDirNameSurrogatePair1, sn); |
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504 test_KErrNone(r); |
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505 r = sn.Compare(KTestDirNameSurrogatePair1_ShortName); |
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506 test_Equal(r, 0); |
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507 |
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508 MakeDir(KTestDirNameSurrogatePair2); |
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509 r = TheFs.GetShortName(KTestDirNameSurrogatePair2, sn); |
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510 test_KErrNone(r); |
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511 r = sn.Compare(KTestDirNameSurrogatePair2_ShortName); |
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512 test_Equal(r, 0); |
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513 |
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514 test_KErrNone(TheFs.RmDir(KTestDirName1)); |
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515 test_KErrNone(TheFs.RmDir(KTestDirName2)); |
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516 test_KErrNone(TheFs.RmDir(KTestDirName3)); |
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517 test_KErrNone(TheFs.RmDir(KTestDirNameSurrogatePair1)); |
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518 test_KErrNone(TheFs.RmDir(KTestDirNameSurrogatePair2)); |
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519 |
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520 test.Next(_L("--TestDuplicateLongDirNames")); |
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521 } |
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522 |
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523 void CallTestsL(void) |
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524 { |
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525 |
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526 test.Title(); |
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527 test.Start(_L("Starting T_SURROGATEPAIR tests")); |
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528 |
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529 #if defined(_DEBUG) || defined(_DEBUG_RELEASE) |
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530 |
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531 // Test only runs on Fat file systems |
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532 TheFs.SessionPath(gSessionPath); |
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533 TInt driveNum = CurrentDrive(); |
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534 TFSName name; |
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535 TInt r = TheFs.FileSystemName(name, driveNum); |
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536 if (KErrNone == r) |
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537 { |
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538 if (name.Compare(_L("Fat")) != 0) |
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539 { |
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540 test.Printf(_L("Test only runs on 'Fat' drives")); |
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541 } |
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542 else |
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543 { |
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544 // Check for the default implementation |
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545 // Disables codepage dll implementation of LocaleUtils functions |
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546 r = TheFs.ControlIo(driveNum, KControlIoDisableFatUtilityFunctions); |
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547 test_KErrNone(r); |
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548 |
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549 CreateTestDirectory(_L("\\F32-TST\\T_SURROGATEPAIR\\")); |
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550 |
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551 TestVolumeLabel(); |
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552 TestShortNameCharacter(); |
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553 TestConsistentShortNameGeneration(); |
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554 TestConsistentShortNameExtGeneration(); |
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555 TestDuplicateLongFileNames(); |
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556 TestDuplicateLongDirNames(); |
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557 |
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558 DeleteTestDirectory(); |
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559 |
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560 // Disables codepage dll implementation of LocaleUtils functions for other base tests |
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561 r = TheFs.ControlIo(driveNum, KControlIoDisableFatUtilityFunctions); |
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562 test_KErrNone(r); |
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563 } |
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564 } |
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565 else |
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566 { |
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567 test.Printf(_L("Drive %C: is not ready!"), 'A'+driveNum); |
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568 test(EFalse); |
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569 } |
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570 #else |
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571 test.Printf(_L("Test only runs on DEBUG builds, see test logs of debug builds for details.")); |
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572 #endif // _DEBUG) || _DEBUG_RELEASE |
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573 test.End(); |
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574 } |