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1 // Copyright (c) 2007-2010 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 // |
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15 |
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16 #include <e32base.h> |
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17 #include <e32base_private.h> |
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18 #include <e32cmn.h> |
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19 #include <e32cmn_private.h> |
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20 #include <e32debug.h> |
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21 #include <e32property.h> |
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22 #include <u32hal.h> |
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23 #include <hal.h> |
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24 #include <f32file.h> |
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25 #include <e32svr.h> |
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26 #include <e32const.h> |
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27 |
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28 |
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29 #include "t_rmdebug_app.h" |
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30 |
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31 IMPORT_C extern void RMDebug_BranchTst2(); |
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32 |
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33 LOCAL_C void ParseCommandLineL(TInt32& aFunctionType, TUint& aDelay, TUint& aExtraThreads, TInt32& aCpuNumber, TInt32& aThreadPriority) |
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34 { |
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35 |
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36 // get the length of the command line arguments |
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37 TInt argc = User::CommandLineLength(); |
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38 RDebug::Printf(" t_rmdebug_app: ParseCommandLineL argc=%d", argc); |
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39 |
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40 // allocate a buffer for the command line arguments and extract the data to it |
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41 HBufC* commandLine = HBufC::NewLC(argc); |
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42 TPtr commandLineBuffer = commandLine->Des(); |
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43 User::CommandLine(commandLineBuffer); |
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44 |
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45 // create a lexer and read through the command line |
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46 TLex lex(*commandLine); |
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47 while (!lex.Eos()) |
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48 { |
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49 // expecting the first character to be a '-' |
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50 if (lex.Get() == '-') |
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51 { |
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52 TChar arg = lex.Get(); |
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53 switch (arg) |
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54 { |
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55 case 'f': |
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56 // the digits following '-f' give the function type |
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57 User::LeaveIfError(lex.Val(aFunctionType)); |
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58 RDebug::Printf(" t_rmdebug_app: setting aFunctionType=%d", aFunctionType); |
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59 break; |
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60 case 'd': |
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61 // the digits following '-d' give the delay |
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62 User::LeaveIfError(lex.Val(aDelay)); |
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63 RDebug::Printf(" t_rmdebug_app: setting aDelay=%d", aDelay); |
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64 break; |
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65 case 'e': |
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66 // the digits following '-e' give the number of extra threads to launch |
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67 User::LeaveIfError(lex.Val(aExtraThreads)); |
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68 RDebug::Printf(" t_rmdebug_app: setting aExtraThreads=%d", aExtraThreads); |
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69 break; |
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70 |
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71 case 'p': |
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72 // the digits following '-p' gives the value to set for the main thread priority |
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73 User::LeaveIfError(lex.Val(aThreadPriority)); |
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74 RDebug::Printf(" t_rmdebug_app: aThreadPriority =%d", aThreadPriority); |
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75 break; |
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76 |
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77 case 'a': |
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78 // the digits following '-a' gives the cpu on which this thread will execute on |
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79 User::LeaveIfError(lex.Val(aCpuNumber)); |
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80 RDebug::Printf(" t_rmdebug_app: CPU Number =%d", aCpuNumber ); |
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81 break; |
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82 |
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83 default: |
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84 // unknown argument so leave |
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85 User::Leave(KErrArgument); |
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86 } |
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87 lex.SkipSpace(); |
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88 } |
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89 else |
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90 { |
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91 // unknown argument so leave |
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92 User::Leave(KErrArgument); |
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93 } |
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94 } |
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95 |
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96 // do clean up |
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97 CleanupStack::PopAndDestroy(commandLine); |
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98 } |
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99 |
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100 typedef void (*TPfun)(); |
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101 |
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102 // test function to call corresponding to EPrefetchAbortFunction |
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103 void PrefetchAbort() |
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104 { |
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105 TPfun f = NULL; |
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106 f(); |
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107 } |
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108 |
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109 // test function to call corresponding to EUserPanicFunction |
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110 void UserPanic() |
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111 { |
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112 User::Panic(KUserPanic, KUserPanicCode); |
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113 } |
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114 |
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115 // calls self repeatedly until stack is used up. Slightly convoluted to prevent UREL optimising this out... |
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116 TUint32 StackOverFlowFunction(TUint32 aInt=0) |
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117 { |
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118 TUint32 unusedArray[150]; |
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119 for(TInt i=0; i<150; i++) |
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120 { |
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121 unusedArray[i] = StackOverFlowFunction(i); |
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122 } |
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123 return unusedArray[0]; |
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124 } |
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125 |
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126 void DataAbort() |
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127 { |
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128 TInt* r = (TInt*) 0x1000; |
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129 *r = 0x42; |
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130 } |
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131 |
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132 void UndefInstruction() |
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133 { |
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134 TUint32 undef = 0xE6000010; |
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135 TPfun f = (TPfun) &undef; |
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136 f(); |
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137 } |
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138 |
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139 TInt DataRead() |
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140 { |
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141 TInt* r = (TInt*) 0x1000; |
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142 TInt rr = (TInt)*r; |
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143 //include the following line to ensure that rr doesn't get optimised out |
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144 RDebug::Printf("Shouldn't see this being printed out: %d", rr); |
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145 |
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146 // Stop compilation warning. Should not get here anyway. |
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147 rr++; |
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148 return rr; |
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149 } |
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150 |
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151 void DataWrite() |
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152 { |
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153 TInt* r = (TInt*) 0x1000; |
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154 *r = 0x42; |
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155 } |
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156 |
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157 void UserException() |
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158 { |
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159 User::RaiseException(EExcGeneral); |
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160 } |
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161 |
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162 void SpinForeverWithBreakPoint() |
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163 { |
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164 |
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165 // finding the process t_rmdebug2/t_rmdebug2_oem/t_rmdebug2_oem2 |
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166 // we find the process.SID to attach to the property |
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167 _LIT(KThreadWildCard, "t_rmdebug2*"); |
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168 |
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169 TInt err = KErrNone; |
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170 TUid propertySid = KNullUid; |
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171 TFindThread find(KThreadWildCard); |
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172 TFullName name; |
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173 TBool found = EFalse; |
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174 while(find.Next(name)==KErrNone && !found) |
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175 { |
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176 RThread thread; |
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177 err = thread.Open(find); |
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178 if (err == KErrNone) |
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179 { |
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180 RProcess process; |
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181 thread.Process(process); |
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182 TFullName fullname = thread.FullName(); |
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183 //RDebug::Printf("SID Search Match Found Name %lS Process ID%ld Thread Id %ld", &fullname, process.Id().Id(), thread.Id().Id()); |
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184 found = ETrue; |
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185 //SID saved so that the property can be attached to |
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186 propertySid = process.SecureId(); |
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187 process.Close(); |
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188 } |
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189 thread.Close(); |
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190 } |
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191 |
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192 // publish the address of the RMDebug_BranchTst2 with the correct SID value |
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193 TInt address = (TInt)&RMDebug_BranchTst2; |
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194 err = RProperty::Set(propertySid, EMyPropertyInteger, address); |
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195 if(KErrNone != err) |
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196 RDebug::Printf("Error Set of the property %d", err); |
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197 |
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198 //open semaphore to signal the fact we have reached the point where we have to set the property |
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199 RSemaphore globsem; |
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200 globsem.OpenGlobal(_L("RMDebugGlobSem")); |
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201 globsem.Signal(); |
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202 globsem.Close(); |
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203 |
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204 RProcess thisProcess; |
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205 TFileName thisProcessName = thisProcess.FileName(); |
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206 RDebug::Print(_L("App Process Name %S process id %ld thread id %ld"), &thisProcessName, thisProcess.Id().Id(), RThread().Id().Id()); |
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207 |
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208 TInt i=0; |
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209 RThread::Rendezvous(KErrNone); |
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210 while(i<0xffffffff) |
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211 { |
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212 RMDebug_BranchTst2(); |
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213 User::After(10000); |
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214 } |
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215 } |
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216 |
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217 void SpinForever() |
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218 { |
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219 TInt i=0; |
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220 RThread::Rendezvous(KErrNone); |
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221 while(i<0xffffffff) |
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222 { |
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223 User::After(10000); |
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224 } |
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225 } |
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226 |
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227 void NormalExit() |
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228 { |
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229 RDebug::Printf("Target app: NormalExit() function. Returning to MainL" ); |
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230 } |
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231 |
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232 void LaunchThreads(TUint aNumber) |
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233 { |
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234 _LIT(KDebugThreadName, "DebugThread"); |
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235 const TUint KDebugThreadDefaultHeapSize=0x10000; |
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236 for(TInt i=0; i<aNumber; i++) |
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237 { |
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238 RThread thread; |
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239 RBuf threadName; |
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240 threadName.Create(KDebugThreadName().Length()+10); // the 10 is for appending i to the end of the name |
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241 threadName.Append(KDebugThreadName()); |
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242 threadName.AppendNum(i); |
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243 TInt err = thread.Create(threadName, (TThreadFunction)SpinForever, KDefaultStackSize, KDebugThreadDefaultHeapSize, KDebugThreadDefaultHeapSize, NULL); |
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244 if(err != KErrNone) |
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245 { |
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246 RDebug::Printf("Couldn't create thread %d", err); |
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247 threadName.Close(); |
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248 thread.Close(); |
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249 break; |
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250 } |
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251 thread.SetPriority(EPriorityNormal); |
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252 TRequestStatus status; |
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253 thread.Rendezvous(status); |
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254 thread.Resume(); |
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255 User::WaitForRequest(status); |
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256 thread.Close(); |
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257 threadName.Close(); |
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258 } |
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259 } |
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260 |
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261 void WaitFiveSecondsThenExit(void) |
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262 { |
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263 // wait for 5 seconds |
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264 User::After(5000000); |
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265 } |
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266 |
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267 TInt NumberOfCpus() |
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268 { |
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269 TInt r = UserSvr::HalFunction(EHalGroupKernel, EKernelHalNumLogicalCpus, 0, 0); |
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270 return r; |
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271 } |
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272 |
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273 TInt SetCpuAffinity(TInt aCpuNumber) |
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274 { |
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275 TInt TestCpuCount = NumberOfCpus(); |
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276 RDebug::Printf("SetCpuAffinity --> TestCpuCount = %d\n", TestCpuCount); |
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277 TUint32 cpu = 0; |
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278 |
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279 if ((aCpuNumber % TestCpuCount) != 0) |
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280 cpu = (TUint32)(aCpuNumber % TestCpuCount); |
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281 |
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282 RDebug::Printf("SetCpuAffinity --> Setting cpu %3d\n", cpu); |
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283 TInt r = UserSvr::HalFunction(EHalGroupKernel, EKernelHalLockThreadToCpu, (TAny *)cpu, 0); |
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284 return r; |
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285 } |
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286 |
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287 void SetCurrentThreadPriority(TInt aThreadPriority) |
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288 { |
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289 RDebug::Printf("SetCurrentThreadPriority aThreadPriority =%d\n", aThreadPriority); |
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290 RThread().SetPriority((TThreadPriority) aThreadPriority); |
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291 RDebug::Printf("SetCurrentThreadPriority Crashapp RThread Priority() = %d", (TInt) RThread().Priority()) ; |
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292 } |
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293 |
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294 TInt GetTimeInMs() |
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295 { |
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296 TInt period = 0; |
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297 User::LeaveIfError(HAL::Get(HALData::ENanoTickPeriod, period)); |
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298 TInt periodInMs = period / 1000; |
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299 return User::NTickCount() * periodInMs; |
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300 } |
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301 |
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302 void SetNanoTickTime() |
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303 { |
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304 TUid t_performance_test_Sid; |
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305 t_performance_test_Sid.iUid = 0x102831E5; |
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306 RProperty::Set(t_performance_test_Sid, EPropertyTimeOfCrash, GetTimeInMs()); |
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307 } |
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308 |
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309 // call the function corresponding to aFunctionType |
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310 LOCAL_C void CallFunction(TDebugFunctionType aFunctionType, TUint aDelay, TUint aExtraThreads, TInt32 aCpuNumber, TUint aThreadPriority ) |
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311 { |
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312 |
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313 // pause for aDelay microseconds |
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314 User::After(aDelay); |
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315 |
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316 // set cpu on which this thread should execute on |
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317 if ( aCpuNumber ) |
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318 SetCpuAffinity(aCpuNumber); |
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319 |
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320 if ( aThreadPriority ) |
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321 SetCurrentThreadPriority(aThreadPriority); |
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322 |
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323 // launch the extra threads |
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324 LaunchThreads(aExtraThreads); |
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325 |
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326 // Publish Nano tick count time for RMDBG performance testing |
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327 SetNanoTickTime(); |
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328 |
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329 // call appropriate function |
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330 switch( aFunctionType ) |
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331 { |
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332 case EPrefetchAbortFunction: |
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333 PrefetchAbort(); |
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334 break; |
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335 case EUserPanicFunction: |
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336 UserPanic(); |
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337 break; |
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338 case EStackOverflowFunction: |
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339 StackOverFlowFunction(); |
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340 break; |
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341 case EDataAbortFunction: |
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342 DataAbort(); |
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343 break; |
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344 case EUndefInstructionFunction: |
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345 UndefInstruction(); |
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346 break; |
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347 case EDataReadErrorFunction: |
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348 DataRead(); |
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349 break; |
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350 case EDataWriteErrorFunction: |
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351 DataWrite(); |
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352 break; |
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353 case EUserExceptionFunction: |
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354 UserException(); |
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355 break; |
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356 case EWaitFiveSecondsThenExit: |
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357 WaitFiveSecondsThenExit(); |
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358 break; |
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359 case ESpinForever: |
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360 SpinForever(); |
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361 break; |
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362 case ESpinForeverWithBreakPoint: |
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363 SpinForeverWithBreakPoint(); |
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364 break; |
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365 case ENormalExit: |
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366 NormalExit(); |
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367 break; |
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368 case EDefaultDebugFunction: |
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369 default: |
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370 break; |
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371 } |
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372 } |
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373 |
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374 void PrintHelp() |
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375 { |
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376 RDebug::Printf("Invoke with arguments:\n"); |
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377 RDebug::Printf("\t-d<delay>\n\t: delay in microseconds before calling target function\n"); |
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378 RDebug::Printf("\t-f<function-number>\n\t: enumerator from TDebugFunctionType representing function to call\n"); |
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379 RDebug::Printf("\t-e<number>\n\t: number of extra threads to launch, these threads run endlessly\n"); |
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380 } |
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381 |
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382 TInt E32Main() |
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383 { |
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384 |
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385 RDebug::Printf("<<<<< E32Main() RThread Priority() = %d, RProcess Priority() = %d", (TInt) RThread().Priority(), (TInt) RProcess().Priority()) ; |
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386 RDebug::Printf("t_rmdebug_app tid=%d,pid=%d", I64LOW(RThread().Id().Id()), I64LOW(RProcess().Id().Id()) ) ; |
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387 // setup heap checking and clean up trap |
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388 __UHEAP_MARK; |
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389 CTrapCleanup* cleanup=CTrapCleanup::New(); |
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390 RThread().SetPriority(EPriorityNormal); |
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391 RProcess::Rendezvous(KErrNone); |
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392 |
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393 // read arguments from command line |
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394 TUint delay = 0; |
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395 TInt32 functionTypeAsTInt32 = (TInt32)EDefaultDebugFunction; |
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396 TUint extraThreads = 0; |
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397 TInt32 aCpuNumber = 0; |
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398 TInt32 aThreadPriority = 0; |
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399 |
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400 TRAPD(err, ParseCommandLineL(functionTypeAsTInt32, delay, extraThreads, aCpuNumber, aThreadPriority)); |
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401 |
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402 RDebug::Printf("E32Main :: aThreadPriority=%d", aThreadPriority ) ; |
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403 |
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404 if(KErrNone == err) |
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405 { |
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406 // if the command line arguments were successfully read then call the appropriate function |
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407 CallFunction((TDebugFunctionType)functionTypeAsTInt32, delay, extraThreads, aCpuNumber, aThreadPriority); |
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408 } |
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409 |
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410 // perform clean up and return any error which was recorded |
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411 delete cleanup; |
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412 __UHEAP_MARKEND; |
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413 return err; |
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414 } |
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415 |