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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 "Symbian Foundation 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.symbianfoundation.org/legal/sfl-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 // Contains implementation of CTestHttpServer class |
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15 // @internalAll |
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16 // |
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17 // |
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18 |
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19 // User Includes |
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20 // Test Server |
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21 #include "testhttpserver.h" |
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22 |
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23 // Test steps |
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24 #include "testhttpbasestep.h" |
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25 #include "testhttpeboclientstep.h" |
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26 #include "testhttpeboclientconditionalstep.h" |
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27 #include "testhttpbuffersizestep.h" |
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28 |
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29 #if (!defined EKA2) |
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30 // The system-wide unique name for the test-server |
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31 _LIT(KServerName, "TestHttpServer"); |
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32 #endif |
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33 |
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34 /** |
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35 Static factory constructor. Creates and returns instance of the test server |
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36 @internalTechnology |
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37 @test |
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38 @return A pointer to the newly created CTestHttpServer object |
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39 */ |
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40 CTestHttpServer* CTestHttpServer::NewL() |
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41 { |
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42 // Construct the server |
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43 CTestHttpServer* server = new(ELeave) CTestHttpServer(); |
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44 CleanupStack::PushL(server); |
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45 |
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46 // CServer base class call |
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47 // Name the server using the system-wide unique string |
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48 // Clients use this to create server sessions. |
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49 server->StartL(server->ServerName()); |
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50 |
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51 CleanupStack::Pop(server); |
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52 return server; |
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53 } |
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54 |
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55 |
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56 #if (!defined EKA2) |
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57 /** |
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58 Creates the Active Scheduler, then creates the test-server, synchronises the |
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59 thread with the client and then enters the active scheduler. |
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60 |
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61 This is EKA1 version of MainL(). Uses sempahore to sync with client |
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62 as Rendezvous calls are not available |
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63 */ |
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64 LOCAL_C void MainL() |
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65 { |
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66 // Create and install the active scheduler. |
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67 CActiveScheduler* sched = new(ELeave) CActiveScheduler; |
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68 CleanupStack::PushL(sched); |
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69 CActiveScheduler::Install(sched); |
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70 |
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71 // Create the server inside trap harness |
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72 CTestHttpServer *server = NULL; |
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73 TRAPD(err, server = CTestHttpServer::NewL()); |
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74 if (!err) |
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75 { |
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76 CleanupStack::PushL(server); |
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77 RSemaphore sem; |
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78 |
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79 // The client API of TestExecute will already have created the |
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80 // semaphore and will be waiting on it. |
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81 User::LeaveIfError(sem.OpenGlobal(KServerName)); |
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82 |
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83 CleanupStack::Pop(server); |
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84 |
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85 // Signal the client |
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86 sem.Signal(); |
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87 sem.Close(); |
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88 |
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89 // Enter the active scheduler |
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90 sched->Start(); |
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91 } |
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92 CleanupStack::PopAndDestroy(); // sched |
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93 delete server; |
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94 |
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95 } |
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96 #else |
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97 /** |
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98 EKA2 version of MainL() |
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99 Uses the new Rendezvous call isntead of the older semaphore. |
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100 */ |
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101 LOCAL_C void MainL() |
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102 { |
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103 // For platform security |
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104 #if (defined __DATA_CAGING__) |
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105 RProcess().DataCaging(RProcess::EDataCagingOn); |
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106 RProcess().SecureApi(RProcess::ESecureApiOn); |
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107 #endif |
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108 CActiveScheduler* sched = new(ELeave) CActiveScheduler; |
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109 CActiveScheduler::Install(sched); |
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110 CTestHttpServer* server = NULL; |
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111 |
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112 // Create the test-server |
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113 TRAPD(err, server = CTestHttpServer::NewL()); |
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114 |
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115 if(!err) |
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116 { |
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117 // Sync with the client and enter the active scheduler |
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118 RProcess::Rendezvous(KErrNone); |
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119 sched->Start(); |
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120 } |
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121 delete server; |
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122 delete sched; |
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123 } |
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124 #endif // #if (!defined EKA2) |
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125 |
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126 |
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127 #if (defined __WINS__ && !defined EKA2) |
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128 /** |
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129 DLL entry-point for EKA1 emulator builds. |
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130 */ |
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131 GLDEF_C TInt E32Dll(enum TDllReason /*aDllReason*/) |
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132 { |
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133 return KErrNone; |
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134 } |
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135 #else |
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136 /** |
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137 Exe entry point code, for EKA1 hardware and EKA2 builds. |
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138 */ |
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139 GLDEF_C TInt E32Main() |
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140 { |
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141 __UHEAP_MARK; |
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142 CTrapCleanup *cleanup = CTrapCleanup::New(); |
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143 if (cleanup == NULL) |
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144 { |
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145 return KErrNoMemory; |
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146 } |
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147 |
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148 TRAPD(err, MainL()); |
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149 __ASSERT_ALWAYS(!err,User::Panic(KTxt,err)); |
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150 delete cleanup; |
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151 __UHEAP_MARKEND; |
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152 return KErrNone; |
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153 } |
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154 #endif // #if (defined __WINS__ && !defined EKA2) |
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155 |
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156 #if (defined __WINS__ && !defined EKA2) |
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157 /** |
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158 For EKA1 emulator builds. This function is called when the thread is first |
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159 resumed. Has the standard thread entry siganture. |
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160 @internalTechnology |
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161 @test |
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162 @return KErrNone if everything is fine or system-wide error if any |
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163 */ |
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164 TInt ThreadFunc (TAny* /*aParam*/) |
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165 { |
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166 __UHEAP_MARK; |
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167 CTrapCleanup* cleanup = CTrapCleanup::New(); |
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168 if (cleanup == NULL) |
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169 { |
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170 return KErrNoMemory; |
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171 } |
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172 TRAPD(err, MainL()); |
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173 __ASSERT_ALWAYS(!err,User::Panic(KTxt,err)); |
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174 delete cleanup; |
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175 __UHEAP_MARKEND; |
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176 return KErrNone; |
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177 } |
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178 |
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179 /** |
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180 For EKA1 emulator builds. Creates and starts a thread for the server to run. |
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181 @internalTechnology |
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182 @test |
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183 @param None |
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184 @return Integer value indicating the error code. |
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185 */ |
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186 EXPORT_C TInt NewServer() |
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187 { |
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188 _LIT(KThread, "Thread"); |
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189 RThread thread; |
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190 |
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191 // Name the thread as "<Server-Name>Thread" making it hopefully unique |
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192 TBuf<KMaxTestExecuteNameLength> threadName(KServerName); |
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193 threadName.Append(KThread); |
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194 |
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195 const TInt KMaxHeapSize = 0x1000000; |
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196 |
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197 // Create the thread |
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198 TInt err = thread.Create(threadName, ThreadFunc, KDefaultStackSize, |
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199 KMinHeapSize, KMaxHeapSize, NULL, EOwnerProcess |
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200 ); |
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201 if (err != KErrNone) |
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202 { |
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203 return err; |
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204 } |
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205 |
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206 // Start the thread -> effectively calls ThreadFunc |
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207 thread.Resume(); |
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208 |
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209 thread.Close(); |
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210 return KErrNone; |
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211 } |
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212 #endif // #if (defined __WINS__ && !defined EKA2) |
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213 |
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214 |
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215 /** |
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216 Base class pure virtual |
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217 @internalTechnology |
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218 @test |
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219 @return Instance of the test step |
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220 @param Descriptor containing the test-step name |
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221 */ |
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222 CTestStep* CTestHttpServer::CreateTestStep(const TDesC& aStepName) |
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223 { |
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224 CTestStep *testStep = NULL; |
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225 TRAPD(err,testStep=CreateTestStepL(aStepName)); |
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226 if(err == KErrNone) |
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227 return testStep; |
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228 else |
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229 return NULL; |
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230 } |
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231 |
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232 |
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233 CTestStep* CTestHttpServer::CreateTestStepL(const TDesC& aStepName) |
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234 { |
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235 CTestStep *testStep = NULL; |
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236 |
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237 if (aStepName == KTestHttpEboClientStep) |
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238 { |
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239 testStep = new (ELeave) CHttpEboClientStep(); |
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240 } |
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241 else if (aStepName == KTestHttpEboClientConditionalStep) |
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242 { |
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243 testStep = new (ELeave) CHttpEboClientConditionalStep(); |
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244 } |
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245 else if ( aStepName == KTestHttpBufferSizeStep ) |
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246 { |
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247 testStep = new (ELeave) CTestHttpBufferSizeStep(); |
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248 } |
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249 |
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250 return testStep; |
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251 } |
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252 |
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253 /** |
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254 Returns server name based on the EKA version |
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255 @internalTechnology |
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256 @test |
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257 @return Descriptor containing the servername |
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258 */ |
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259 const TPtrC CTestHttpServer::ServerName() |
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260 { |
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261 #if (!defined EKA2) |
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262 return KServerName(); |
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263 #else |
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264 // The exe name can be either TestWListBListUriServer or |
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265 // TestWListBListUriServer_Cap based on whether the normal |
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266 // or the security tests are being run. So decide the server |
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267 // name during runtime |
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268 TParsePtrC serverName(RProcess().FileName()); |
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269 return serverName.Name(); |
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270 #endif |
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271 } |