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1 // Copyright (c) 2003-2009 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 "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 // Basic Server Interaction Tests (test doc 4.1) |
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15 // |
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16 // |
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17 |
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18 /** |
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19 @file te_dhcpTestStep1.cpp |
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20 */ |
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21 #include "te_dhcpTestStep1.h" |
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22 #include <test/testexecutelog.h> |
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23 #include <commdbconnpref.h> |
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24 #include <in_sock.h> |
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25 #include <nifman.h> |
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26 #include "te_dhcpTestServer.h" |
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27 #include <comms-infras/es_config.h> |
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28 #include "../../include/DHCP_Std.h" |
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29 #include <comms-infras/startprocess.h> |
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30 #include "te_TestDaemonClient.h" |
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31 #include "DHCPStatesDebug.h" |
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32 |
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33 TVerdict CDhcpTestStep1_1::doTestStepL() |
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34 /** |
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35 * @return - TVerdict code, only ever returns EPass, else leaves with error! |
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36 * Override of base class pure virtual |
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37 * Connect to DHCP Daemon (test doc 4.1.1) |
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38 * Test cannot explicitly connect as we use the |
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39 * RConnection API here which will test full |
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40 * functionality through the system. This test |
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41 * therefore starts an ethernet connection with |
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42 * settings in commDB to specify using dhcp configuration |
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43 * to provide the connection with an address. If the connection |
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44 * starts successfully, then DHCP was used to configure an |
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45 * address therefore connection to DHCP by NIFMAN was achieved... |
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46 */ |
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47 { |
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48 |
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49 SetTestStepResult(EFail); |
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50 |
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51 RSocketServ eSock; |
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52 TInt err = eSock.Connect(); |
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53 TESTEL(err == KErrNone, err); |
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54 CleanupClosePushL(eSock); |
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55 |
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56 #ifdef _DEBUG |
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57 User::LeaveIfError(RProperty::Set(KMyPropertyCat, KMyPropertyDestPortv4, 67)); |
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58 User::LeaveIfError(RProperty::Set(KMyPropertyCat, KMyPropertyDestPortv6, 547)); |
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59 #endif |
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60 |
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61 RConnection connNET1; |
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62 err = connNET1.Open(eSock); |
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63 TESTEL(err == KErrNone, err); |
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64 CleanupClosePushL(connNET1); |
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65 |
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66 err = connNET1.Start(iConnPrefs); // see test script for IAP used |
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67 TESTEL(err == KErrNone, err); |
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68 |
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69 err = connNET1.Stop(); |
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70 TESTEL(err == KErrNone, err); |
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71 |
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72 CleanupStack::PopAndDestroy(&connNET1); |
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73 CleanupStack::PopAndDestroy(&eSock); |
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74 |
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75 SetTestStepResult(EPass); |
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76 return TestStepResult(); |
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77 } |
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78 |
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79 TVerdict CDhcpTestStep1_2::doTestStepL() |
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80 /** |
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81 * @return - TVerdict code only ever returns EPass, else leaves with error! |
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82 * Override of base class pure virtual |
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83 * Connect to DHCP Daemon - Daemon not found(test doc 4.1.2) |
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84 * Daemon name in commDB specifies a non-existent daemon therefore |
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85 * connection start will fail as the settings for it are incorrect... |
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86 */ |
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87 { |
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88 SetTestStepResult(EFail); |
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89 |
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90 RSocketServ eSock; |
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91 TInt err = eSock.Connect(); |
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92 TESTEL(err == KErrNone, err); |
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93 CleanupClosePushL(eSock); |
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94 #ifdef _DEBUG |
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95 User::LeaveIfError(RProperty::Set(KMyPropertyCat, KMyPropertyDestPortv4, 67)); |
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96 #endif |
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97 |
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98 RConnection connNET1; |
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99 err = connNET1.Open(eSock); |
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100 TESTEL(err == KErrNone, err); |
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101 CleanupClosePushL(connNET1); |
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102 |
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103 err = connNET1.Start(iConnPrefs); // see test script for IAP used |
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104 TESTEL(err == KErrNotFound, err); |
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105 |
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106 CleanupStack::PopAndDestroy(&connNET1); |
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107 CleanupStack::PopAndDestroy(&eSock); |
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108 |
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109 SetTestStepResult(EPass); |
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110 return TestStepResult(); |
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111 } |
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112 |
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113 TVerdict CDhcpTestStep1_3::doTestStepL() |
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114 /** |
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115 * @return - TVerdict code only ever returns EPass, else leaves with error! |
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116 * Override of base class pure virtual |
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117 * Get Active IP Address (test doc 4.1.3) |
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118 * from a connection that does not use DHCP |
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119 * configuration but the static settings in |
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120 * commDB. Therefore any request for the address |
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121 * from the DHCP daemon will fail. |
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122 */ |
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123 { |
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124 SetTestStepResult(EFail); |
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125 |
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126 RSocketServ eSock; |
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127 TInt err = eSock.Connect(); |
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128 TESTEL(err == KErrNone, err); |
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129 INFO_PRINTF2(_L("eSock.Connect() returned %d"),err); |
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130 CleanupClosePushL(eSock); |
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131 #ifdef _DEBUG |
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132 User::LeaveIfError(RProperty::Set(KMyPropertyCat, KMyPropertyDestPortv4, 67)); |
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133 #endif |
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134 |
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135 RConnection connNET1; |
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136 err = connNET1.Open(eSock); |
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137 INFO_PRINTF2(_L("connNET1.Open(eSock) returned %d"),err); |
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138 TESTEL(err == KErrNone, err); |
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139 CleanupClosePushL(connNET1); |
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140 |
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141 err = connNET1.Start(iConnPrefs); // see test script for IAP used |
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142 INFO_PRINTF2(_L("connNET1.Start(prefs) returned %d"),err); |
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143 TESTEL(err == KErrNone, err); |
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144 |
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145 TRequestStatus stat; |
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146 TConnectionAddrBuf address; |
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147 address().iAddressFamily = IpAddressFamilyL(); |
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148 INFO_PRINTF1(_L("Just before connNET1.Ioctl(...)")); |
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149 |
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150 |
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151 INFO_PRINTF2(_L("Size: %d "), address.Size()); |
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152 INFO_PRINTF2(_L("MaxSize: %d "), address.MaxSize()); |
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153 INFO_PRINTF2(_L("MaxLength: %d "), address.MaxLength()); |
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154 |
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155 connNET1.Ioctl(KCOLConfiguration, KConnGetCurrentAddr, stat, &address); |
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156 User::WaitForRequest(stat); |
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157 INFO_PRINTF2(_L("err = connNET1.Ioctl(...) returned %d"),stat.Int()); |
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158 TESTEL(stat == KErrNotSupported, stat.Int()); |
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159 |
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160 err = connNET1.Stop(); |
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161 INFO_PRINTF2(_L("connNET1.Stop() returned %d"),err); |
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162 TESTEL(err == KErrNone, err); |
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163 |
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164 CleanupStack::PopAndDestroy(&connNET1); |
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165 CleanupStack::PopAndDestroy(&eSock); |
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166 |
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167 SetTestStepResult(EPass); |
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168 return TestStepResult(); |
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169 } |
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170 |
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171 TVerdict CDhcpTestStep1_4::doTestStepL() |
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172 /** |
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173 * @return - TVerdict code only ever returns EPass, else leaves with error! |
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174 * Override of base class pure virtual |
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175 * Get DHCP Server Address (test case 4.1.4) |
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176 * As no DHCP configuration is used for this |
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177 * test, the connection cannot be queried for |
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178 * the DHCP Server that assigned any address... |
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179 */ |
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180 { |
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181 SetTestStepResult(EFail); |
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182 |
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183 RSocketServ eSock; |
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184 TInt err = eSock.Connect(); |
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185 TESTEL( err == KErrNone, err); |
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186 CleanupClosePushL(eSock); |
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187 #ifdef _DEBUG |
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188 User::LeaveIfError(RProperty::Set(KMyPropertyCat, KMyPropertyDestPortv4, 67)); |
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189 #endif |
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190 |
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191 RConnection connNET1; |
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192 err = connNET1.Open(eSock); |
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193 TESTEL( err == KErrNone, err); |
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194 CleanupClosePushL(connNET1); |
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195 |
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196 err = connNET1.Start(iConnPrefs); // see test script for IAP used |
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197 TESTEL(err == KErrNone, err); |
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198 |
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199 TRequestStatus stat; |
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200 TConnectionAddrBuf address; |
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201 address().iAddressFamily = IpAddressFamilyL(); |
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202 connNET1.Ioctl(KCOLConfiguration, KConnGetServerAddr, stat, &address); |
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203 User::WaitForRequest(stat); |
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204 TESTEL( stat == KErrNotSupported, stat.Int()); |
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205 |
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206 err = connNET1.Stop(); |
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207 TESTEL(err == KErrNone, err); |
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208 |
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209 CleanupStack::PopAndDestroy(&connNET1); |
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210 CleanupStack::PopAndDestroy(&eSock); |
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211 |
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212 SetTestStepResult(EPass); |
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213 return TestStepResult(); |
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214 } |
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215 |
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216 TVerdict CDhcpTestStep1_5::doTestStepL() |
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217 /** |
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218 * @return - TVerdict code only ever returns EPass, else leaves with error! |
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219 * Override of base class pure virtual |
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220 * Get Remaining Lease Time (test case 4.1.5) |
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221 */ |
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222 { |
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223 SetTestStepResult(EFail); |
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224 |
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225 RSocketServ eSock; |
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226 TInt err = eSock.Connect(); |
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227 TESTEL(err == KErrNone, err); |
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228 CleanupClosePushL(eSock); |
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229 #ifdef _DEBUG |
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230 User::LeaveIfError(RProperty::Set(KMyPropertyCat, KMyPropertyDestPortv4, 67)); |
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231 #endif |
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232 |
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233 RConnection connNET1; |
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234 err = connNET1.Open(eSock); |
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235 TESTEL(err == KErrNone, err); |
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236 CleanupClosePushL(connNET1); |
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237 |
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238 err = connNET1.Start(iConnPrefs); // see test script for IAP used |
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239 TESTEL(err == KErrNone, err); |
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240 |
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241 TConnectionLeaseInfoBuf leaseTime1; |
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242 leaseTime1().iAddressFamily = IpAddressFamilyL(); |
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243 TRequestStatus stat; |
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244 connNET1.Ioctl(KCOLConfiguration, KConnGetAddrLeaseTimeRemain, stat, &leaseTime1); |
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245 User::WaitForRequest(stat); |
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246 TESTEL(stat == KErrNotSupported, stat.Int()); |
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247 |
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248 err = connNET1.Stop(); |
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249 TESTEL(err == KErrNone, err); |
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250 |
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251 CleanupStack::PopAndDestroy(&connNET1); |
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252 CleanupStack::PopAndDestroy(&eSock); |
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253 |
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254 SetTestStepResult(EPass); |
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255 return TestStepResult(); |
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256 } |
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257 |
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258 |
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259 TVerdict CDhcpTestStep1_6::doTestStepL() |
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260 /** |
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261 * @return - TVerdict code only ever returns EPass, else leaves with error! |
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262 * Override of base class pure virtual |
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263 * Renew Current Lease (test case 4.1.6) |
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264 */ |
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265 { |
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266 SetTestStepResult(EFail); |
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267 |
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268 RSocketServ eSock; |
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269 TInt err = eSock.Connect(); |
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270 TESTEL( err == KErrNone, err); |
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271 CleanupClosePushL(eSock); |
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272 #ifdef _DEBUG |
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273 User::LeaveIfError(RProperty::Set(KMyPropertyCat, KMyPropertyDestPortv4, 67)); |
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274 #endif |
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275 |
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276 RConnection connNET1; |
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277 err = connNET1.Open(eSock); |
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278 TESTEL( err == KErrNone, err); |
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279 CleanupClosePushL(connNET1); |
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280 |
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281 err = connNET1.Start(iConnPrefs); // see test script for IAP used |
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282 TESTEL( err == KErrNone, err); |
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283 |
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284 TRequestStatus stat; |
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285 connNET1.Ioctl(KCOLConfiguration, KConnAddrRenew, stat); |
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286 User::WaitForRequest(stat); |
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287 TESTEL( stat == KErrNotSupported, stat.Int()); |
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288 |
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289 err = connNET1.Stop(); |
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290 TESTEL(err == KErrNone, err); |
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291 |
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292 CleanupStack::PopAndDestroy(&connNET1); |
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293 CleanupStack::PopAndDestroy(&eSock); |
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294 |
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295 SetTestStepResult(EPass); |
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296 return TestStepResult(); |
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297 } |
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298 |
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299 TVerdict CDhcpTestStep1_7::doTestStepL() |
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300 /** |
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301 * @return - TVerdict code only ever returns EPass, else leaves with error! |
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302 * Override of base class pure virtual |
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303 * Release Current Lease (test case 4.1.7) |
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304 */ |
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305 { |
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306 SetTestStepResult(EFail); |
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307 |
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308 RSocketServ eSock; |
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309 TInt err = eSock.Connect(); |
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310 TESTEL( err == KErrNone, err); |
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311 CleanupClosePushL(eSock); |
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312 #ifdef _DEBUG |
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313 User::LeaveIfError(RProperty::Set(KMyPropertyCat, KMyPropertyDestPortv4, 67)); |
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314 #endif |
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315 |
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316 RConnection connNET1; |
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317 err = connNET1.Open(eSock); |
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318 TESTEL(err == KErrNone, err); |
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319 CleanupClosePushL(connNET1); |
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320 |
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321 err = connNET1.Start(iConnPrefs); // see test script for IAP used |
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322 TESTEL(err == KErrNone, err); |
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323 |
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324 TRequestStatus stat; |
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325 connNET1.Ioctl(KCOLConfiguration, KConnAddrRelease, stat); |
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326 User::WaitForRequest(stat); |
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327 TESTEL(stat == KErrNotSupported, stat.Int()); |
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328 |
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329 err = connNET1.Stop(); |
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330 TESTEL(err == KErrNone, err); |
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331 |
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332 CleanupStack::PopAndDestroy(&connNET1); |
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333 CleanupStack::PopAndDestroy(&eSock); |
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334 |
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335 SetTestStepResult(EPass); |
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336 return TestStepResult(); |
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337 } |
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338 |
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339 TVerdict CDhcpTestStep1_8::doTestStepL() |
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340 /** |
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341 * @return - TVerdict code only ever returns EPass, else leaves with error! |
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342 * Override of base class pure virtual |
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343 * Check that the TCP/IP link local option is honoured if the DHCP server is unavailable. |
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344 */ |
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345 { |
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346 #ifndef __DHCP_HEAP_CHECK_CONTROL |
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347 INFO_PRINTF1(_L("This test step is disabled for release build.")); |
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348 SetTestStepResult(EInconclusive); |
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349 return TestStepResult(); |
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350 #else |
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351 |
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352 SetTestStepResult(EFail); |
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353 |
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354 TInt ipv4linklocal = 0; |
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355 |
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356 if( !UsingIPv6L() ) |
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357 { |
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358 // Open the .ini file. |
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359 TAutoClose<RFs> fs; |
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360 User::LeaveIfError( fs.iObj.Connect() ); |
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361 fs.PushL(); |
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362 TAutoClose<RFile> file; |
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363 User::LeaveIfError( file.iObj.Open( fs.iObj, TCPIP_INI_PATH, EFileRead | EFileShareAny ) ); |
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364 file.PushL(); |
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365 |
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366 // Read the contents of the file. |
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367 TInt size; |
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368 User::LeaveIfError( file.iObj.Size( size ) ); |
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369 TAutoClose<RBuf8> buf; |
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370 buf.iObj.CreateL( size ); |
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371 buf.PushL(); |
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372 User::LeaveIfError( file.iObj.Read( buf.iObj ) ); |
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373 |
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374 // Read the ipv4linklocal value if present. |
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375 TInt valPos = buf.iObj.Find( TCPIP_INI_IPV4LINKLOCAL ); |
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376 if( valPos != KErrNotFound ) |
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377 { |
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378 ipv4linklocal = buf.iObj[valPos + ( (const TDes8 &)TCPIP_INI_IPV4LINKLOCAL ).Length()] - '0'; // convert to integer by subtracting base of ASCII integer range |
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379 |
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380 // Check that the value is valid. |
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381 if( ( ipv4linklocal < 0 ) || ( ipv4linklocal > 3 ) ) |
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382 { |
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383 INFO_PRINTF2(_L("Invalid ipv4linklocal option %d in tcpip.ini"), ipv4linklocal); |
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384 |
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385 SetTestStepResult(EInconclusive); |
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386 |
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387 return TestStepResult(); |
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388 } |
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389 } |
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390 |
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391 buf.Pop(); |
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392 file.Pop(); |
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393 fs.Pop(); |
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394 } |
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395 |
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396 // Check to see if the IP address is static. |
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397 bool isStatic = IsIAPAddrStaticL(); |
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398 if( isStatic ) |
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399 { |
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400 INFO_PRINTF1(_L("A static IP address has been configured.")); |
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401 } |
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402 else |
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403 { |
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404 INFO_PRINTF1(_L("A static IP address has not been configured.")); |
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405 } |
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406 |
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407 // Start DHCP server. |
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408 RStartProcess processStart; |
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409 TInt err = processStart.Start(KDHCPProcessName); |
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410 TESTEL( err == KErrNone || err ==KErrAlreadyExists, err); |
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411 |
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412 // Connect to the server. We will use this connection to issue heap debug commands. |
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413 RTestDaemonClient debugSession; |
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414 debugSession.CreateSession(); |
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415 CleanupClosePushL(debugSession); |
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416 |
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417 RSocketServ eSock; |
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418 err = eSock.Connect(); |
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419 TESTEL(err == KErrNone, err); |
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420 CleanupClosePushL(eSock); |
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421 |
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422 RConnection connNET1; |
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423 err = connNET1.Open(eSock); |
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424 TESTEL(err == KErrNone, err); |
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425 CleanupClosePushL(connNET1); |
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426 |
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427 RSocket socket; |
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428 CleanupClosePushL(socket); |
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429 |
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430 TRequestStatus stat; |
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431 TUint curAddrTypesDHCPDiscoverFailed = KCurAddrNone; |
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432 |
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433 // Check to see if configuration deamon controlled link locals are enabled or |
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434 // the address is static (must not try this test in other circumstances - the |
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435 // interface will not start without a valid initial address). |
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436 if( ( ipv4linklocal == 3 ) || isStatic ) |
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437 { |
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438 INFO_PRINTF1(_L("Testing address types after failed DHCP initialisation...")); |
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439 |
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440 // Set debug flags. |
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441 INFO_PRINTF1(_L("Setting debug option to simulate DHCP discovery failure...")); |
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442 TDhcpMemDbgParamBuf dhcpMemDbgParamBuf; |
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443 dhcpMemDbgParamBuf() = KDHCP_FailDiscover; |
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444 debugSession.Ioctl(KCOLConfiguration, KDhcpMemDbgIoctl|KDHCP_DbgFlags, stat, &dhcpMemDbgParamBuf); |
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445 User::WaitForRequest(stat); |
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446 TESTEL(stat == KErrNone, stat.Int()); |
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447 |
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448 err = connNET1.Start(iConnPrefs); // see test script for IAP used |
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449 TESTEL(err == KErrNone, err); |
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450 |
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451 User::LeaveIfError( socket.Open( eSock, KAfInet, KSockDatagram, KProtocolInetUdp, connNET1 ) ); |
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452 |
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453 // Check to see if a link local is configured after the DHCP initialisation |
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454 // process fails. |
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455 curAddrTypesDHCPDiscoverFailed = GetCurrentAddressTypesL( socket ); |
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456 |
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457 // Remove debug flags. |
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458 INFO_PRINTF1(_L("Clearing debug options.")); |
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459 dhcpMemDbgParamBuf() = 0; |
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460 debugSession.Ioctl(KCOLConfiguration, KDhcpMemDbgIoctl|KDHCP_DbgFlags, stat, &dhcpMemDbgParamBuf); |
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461 User::WaitForRequest(stat); |
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462 TESTEL(stat == KErrNone, stat.Int()); |
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463 |
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464 socket.Close(); |
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465 connNET1.Stop(); |
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466 } |
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467 |
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468 // Restart the interface to remove any link local address. |
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469 err = connNET1.Start(iConnPrefs); |
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470 TESTEL(err == KErrNone, err); |
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471 User::LeaveIfError( socket.Open( eSock, KAfInet, KSockDatagram, KProtocolInetUdp, connNET1 ) ); |
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472 |
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473 // Check to see if DHCP has been enabled. |
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474 TConnectionAddrBuf address; |
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475 address().iAddressFamily = IpAddressFamilyL(); |
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476 connNET1.Ioctl( KCOLConfiguration, KConnGetCurrentAddr, stat, &address ); |
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477 User::WaitForRequest( stat ); |
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478 TBool dhcpEnabledForIAP = stat.Int() != KErrNotSupported; |
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479 if( dhcpEnabledForIAP ) |
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480 { |
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481 INFO_PRINTF1(_L("DHCP client is available.")); |
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482 |
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483 GetDebugHandleL(connNET1); |
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484 } |
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485 else |
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486 { |
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487 INFO_PRINTF1(_L("DHCP client is not available.")); |
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488 } |
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489 |
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490 // Check to see if a link local is configured after the DHCP initialisation |
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491 // process succeeds. |
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492 INFO_PRINTF1(_L("Testing address types after successful DHCP initialisation...")); |
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493 TUint curAddrTypesDHCP = GetCurrentAddressTypesL( socket ); |
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494 |
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495 TUint curAddrTypesDHCPReleased = KCurAddrNone; |
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496 TUint curAddrTypesDHCPRenewFailed = KCurAddrNone; |
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497 |
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498 if( dhcpEnabledForIAP && !isStatic ) |
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499 { |
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500 // Read lease time |
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501 TConnectionLeaseInfoBuf remainingLease1, remainingLease2; |
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502 remainingLease2().iAddressFamily = IpAddressFamilyL(); |
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503 connNET1.Ioctl(KCOLConfiguration, KConnGetAddrLeaseTimeRemain, stat, &remainingLease2); |
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504 User::WaitForRequest(stat); |
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505 |
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506 // Check to see if a lease time is supported or if the DHCPv6 |
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507 // 'M' and 'O' flags are both false. |
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508 if( stat.Int() == KErrNone ) |
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509 { |
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510 // Release the address and wait for the operation to finish. |
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511 connNET1.Ioctl( KCOLConfiguration, KConnAddrRelease, stat ); |
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512 User::WaitForRequest(stat); |
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513 TESTEL(stat == KErrNone, stat.Int()); |
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514 |
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515 // Check to see if a link local is configured after the address is released (there should not be). |
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516 INFO_PRINTF1(_L("Testing address types after DHCP release...")); |
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517 curAddrTypesDHCPReleased = GetCurrentAddressTypesL( socket ); |
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518 |
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519 // Set debug flags. |
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520 INFO_PRINTF1(_L("Setting debug option to ensure short lease for first renewal...")); |
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521 TDhcpMemDbgParamBuf dhcpMemDbgParamBuf; |
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522 dhcpMemDbgParamBuf() = KDHCP_SetShortLease; |
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523 debugSession.Ioctl(KCOLConfiguration, KDhcpMemDbgIoctl|KDHCP_DbgFlags, stat, &dhcpMemDbgParamBuf); |
|
524 User::WaitForRequest(stat); |
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525 TESTEL(stat == KErrNone, stat.Int()); |
|
526 |
|
527 // Renew and ensure the lease will be short |
|
528 connNET1.Ioctl( KCOLConfiguration, KConnAddrRenew, stat ); |
|
529 User::WaitForRequest(stat); |
|
530 TESTEL(stat == KErrNone, stat.Int()); |
|
531 |
|
532 // Set debug flags. |
|
533 INFO_PRINTF1(_L("Setting debug option to simulate DHCP renewal failure after second renewal...")); |
|
534 dhcpMemDbgParamBuf() = KDHCP_FailDiscover | KDHCP_FailRenew | KDHCP_FailRebind; |
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535 debugSession.Ioctl(KCOLConfiguration, KDhcpMemDbgIoctl|KDHCP_DbgFlags, stat, &dhcpMemDbgParamBuf); |
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536 User::WaitForRequest(stat); |
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537 TESTEL(stat == KErrNone, stat.Int()); |
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538 |
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539 // Read initial remaining lease time |
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540 remainingLease1().iAddressFamily = IpAddressFamilyL(); |
|
541 connNET1.Ioctl(KCOLConfiguration, KConnGetAddrLeaseTimeRemain, stat, &remainingLease1); |
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542 User::WaitForRequest(stat); |
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543 TESTEL(stat == KErrNone, stat.Int()); |
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544 INFO_PRINTF2(_L("Remaining lease time: %d secs"),remainingLease1().iSecondsRemaining); |
|
545 |
|
546 const TUint KInterval = 5 * 1000000; |
|
547 TUint timeToWait = KInterval; |
|
548 |
|
549 // Start loop for reading lease time. |
|
550 while( ETrue ) |
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551 { |
|
552 // Wait for 5 seconds to run down some of the lease or forever |
|
553 // until a state change occurs if the lease has expired... |
|
554 if( timeToWait == KMaxTUint32 ) |
|
555 { |
|
556 DHCP_DEBUG_SUBSCRIBEL( DHCPDebug::EState + iDebugHandle ); |
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557 } |
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558 else |
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559 { |
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560 timeToWait -= WAIT_FOR_STATE_CHANGE_WITH_TIMEOUTL( timeToWait ); |
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561 } |
|
562 |
|
563 // Check to see if we should report another interval has elapsed. |
|
564 if( timeToWait == 0 ) |
|
565 { |
|
566 // Read lease time |
|
567 remainingLease2().iAddressFamily = IpAddressFamilyL(); |
|
568 connNET1.Ioctl(KCOLConfiguration, KConnGetAddrLeaseTimeRemain, stat, &remainingLease2); |
|
569 User::WaitForRequest(stat); |
|
570 TESTEL(stat == KErrNone, stat.Int()); |
|
571 |
|
572 // Output the remaining lease time. |
|
573 INFO_PRINTF2(_L("Remaining lease time: %d secs"),remainingLease2().iSecondsRemaining); |
|
574 timeToWait = KInterval; |
|
575 |
|
576 if( remainingLease2().iSecondsRemaining <= 0 ) |
|
577 { |
|
578 // The lease has expired. |
|
579 timeToWait = KMaxTUint32; |
|
580 } |
|
581 } |
|
582 |
|
583 // Test is complete when renewal fails. |
|
584 DHCPDebug::State state; |
|
585 QUERY_STATEL( state ); |
|
586 if( ( state == DHCPDebug::EDHCPIPAddressAcquisition ) || ( state == DHCPDebug::EDHCPIP6Solicit ) || ( state == DHCPDebug::EDHCPIP4Select ) || ( state == DHCPDebug::EDHCPIP6Select ) ) |
|
587 { |
|
588 INFO_PRINTF2(_L("Renewal failed."),remainingLease2().iSecondsRemaining); |
|
589 |
|
590 break; |
|
591 } |
|
592 } |
|
593 |
|
594 // Check to see if a link local is configured after the DHCP renewal |
|
595 // process fails. |
|
596 curAddrTypesDHCPRenewFailed = GetCurrentAddressTypesL( socket ); |
|
597 |
|
598 // Remove debug flags. |
|
599 INFO_PRINTF1(_L("Clearing debug options.")); |
|
600 dhcpMemDbgParamBuf() = 0; |
|
601 debugSession.Ioctl(KCOLConfiguration, KDhcpMemDbgIoctl|KDHCP_DbgFlags, stat, &dhcpMemDbgParamBuf); |
|
602 User::WaitForRequest(stat); |
|
603 TESTEL(stat == KErrNone, stat.Int()); |
|
604 } |
|
605 else |
|
606 { |
|
607 if( stat.Int() != KErrNotReady ) |
|
608 { |
|
609 User::Leave( stat.Int() ); |
|
610 } |
|
611 } |
|
612 } |
|
613 |
|
614 err = connNET1.Stop(); |
|
615 TESTEL(err == KErrNone, err); |
|
616 |
|
617 CleanupStack::PopAndDestroy(&socket); |
|
618 CleanupStack::PopAndDestroy(&connNET1); |
|
619 CleanupStack::PopAndDestroy(&eSock); |
|
620 |
|
621 //Close DHCP debug session |
|
622 CleanupStack::PopAndDestroy(&debugSession); |
|
623 |
|
624 // If the link local option is enabled, verify that a link local address |
|
625 // is configured after the DHCP discovery process fails. |
|
626 if( UsingIPv6L() ) |
|
627 { |
|
628 SetTestStepResult(EPass); |
|
629 } |
|
630 else |
|
631 { |
|
632 switch( ipv4linklocal ) |
|
633 { |
|
634 // EV4LLDisabled |
|
635 case 0: |
|
636 { |
|
637 INFO_PRINTF1(_L("Link local option is set to EV4LLDisabled.")); |
|
638 |
|
639 // Link locals are always disabled - the TCP/IP stack should not create |
|
640 // one for any test step. |
|
641 if( !( curAddrTypesDHCPDiscoverFailed & KCurAddrIPv4LinkLocal ) && |
|
642 !( curAddrTypesDHCP & KCurAddrIPv4LinkLocal ) && |
|
643 !( curAddrTypesDHCPReleased & KCurAddrIPv4LinkLocal ) && |
|
644 !( curAddrTypesDHCPRenewFailed & KCurAddrIPv4LinkLocal ) ) |
|
645 { |
|
646 SetTestStepResult(EPass); |
|
647 } |
|
648 else |
|
649 { |
|
650 INFO_PRINTF1(_L("Link local address management is incorrect.")); |
|
651 |
|
652 SetTestStepResult(EFail); |
|
653 } |
|
654 } |
|
655 break; |
|
656 |
|
657 // EV4LLAlways |
|
658 case 1: |
|
659 { |
|
660 INFO_PRINTF1(_L("Link local option is set to EV4LLAlways.")); |
|
661 |
|
662 // Link locals are always enabled - the TCP/IP stack should create |
|
663 // one regardless of any assigned address. |
|
664 if( isStatic ) |
|
665 { |
|
666 if( ( curAddrTypesDHCPDiscoverFailed & KCurAddrIPv4LinkLocal ) && |
|
667 ( curAddrTypesDHCP & KCurAddrIPv4LinkLocal ) ) |
|
668 { |
|
669 SetTestStepResult(EPass); |
|
670 } |
|
671 else |
|
672 { |
|
673 INFO_PRINTF1(_L("Link local address management is incorrect.")); |
|
674 |
|
675 SetTestStepResult(EFail); |
|
676 } |
|
677 } |
|
678 else |
|
679 { |
|
680 if( ( curAddrTypesDHCP & KCurAddrIPv4LinkLocal ) && |
|
681 ( curAddrTypesDHCPReleased & KCurAddrIPv4LinkLocal ) && |
|
682 ( curAddrTypesDHCPRenewFailed & KCurAddrIPv4LinkLocal ) ) |
|
683 { |
|
684 SetTestStepResult(EPass); |
|
685 } |
|
686 else |
|
687 { |
|
688 INFO_PRINTF1(_L("Link local address management is incorrect.")); |
|
689 |
|
690 SetTestStepResult(EFail); |
|
691 } |
|
692 } |
|
693 } |
|
694 break; |
|
695 |
|
696 // EV4LLConditional |
|
697 case 2: |
|
698 { |
|
699 INFO_PRINTF1(_L("Link local option is set to EV4LLConditional.")); |
|
700 |
|
701 // Link locals are conditional - the TCP/IP stack should create |
|
702 // one if there is no statically assigned address. |
|
703 if( isStatic ) |
|
704 { |
|
705 if( !( curAddrTypesDHCPDiscoverFailed & KCurAddrIPv4LinkLocal ) && |
|
706 !( curAddrTypesDHCP & KCurAddrIPv4LinkLocal ) && |
|
707 !( curAddrTypesDHCPReleased & KCurAddrIPv4LinkLocal ) && |
|
708 !( curAddrTypesDHCPRenewFailed & KCurAddrIPv4LinkLocal ) ) |
|
709 { |
|
710 SetTestStepResult(EPass); |
|
711 } |
|
712 else |
|
713 { |
|
714 INFO_PRINTF1(_L("Link local address management is incorrect.")); |
|
715 |
|
716 SetTestStepResult(EFail); |
|
717 } |
|
718 } |
|
719 else |
|
720 { |
|
721 if( ( curAddrTypesDHCP & KCurAddrIPv4LinkLocal ) && |
|
722 ( curAddrTypesDHCPReleased & KCurAddrIPv4LinkLocal ) && |
|
723 ( curAddrTypesDHCPRenewFailed & KCurAddrIPv4LinkLocal ) ) |
|
724 { |
|
725 SetTestStepResult(EPass); |
|
726 } |
|
727 else |
|
728 { |
|
729 INFO_PRINTF1(_L("Link local address management is incorrect.")); |
|
730 |
|
731 SetTestStepResult(EFail); |
|
732 } |
|
733 } |
|
734 } |
|
735 break; |
|
736 |
|
737 // EV4LLConfigDaemonControlled |
|
738 case 3: |
|
739 { |
|
740 INFO_PRINTF1(_L("Link local option is set to EV4LLConfigDaemonControlled.")); |
|
741 |
|
742 // Link locals are controlled by the configuration daemon - |
|
743 // the TCP/IP stack should create one if no address was assigned |
|
744 // by DHCP and there is no static address. |
|
745 if( isStatic ) |
|
746 { |
|
747 if( !( curAddrTypesDHCPDiscoverFailed & KCurAddrIPv4LinkLocal ) && |
|
748 !( curAddrTypesDHCP & KCurAddrIPv4LinkLocal ) && |
|
749 !( curAddrTypesDHCPReleased & KCurAddrIPv4LinkLocal ) && |
|
750 !( curAddrTypesDHCPRenewFailed & KCurAddrIPv4LinkLocal ) ) |
|
751 { |
|
752 SetTestStepResult(EPass); |
|
753 } |
|
754 else |
|
755 { |
|
756 INFO_PRINTF1(_L("Link local address management is incorrect.")); |
|
757 |
|
758 SetTestStepResult(EFail); |
|
759 } |
|
760 } |
|
761 else |
|
762 { |
|
763 if( ( curAddrTypesDHCPDiscoverFailed & KCurAddrIPv4LinkLocal ) && |
|
764 !( curAddrTypesDHCP & KCurAddrIPv4LinkLocal ) && |
|
765 !( curAddrTypesDHCPReleased & KCurAddrIPv4LinkLocal ) && |
|
766 ( curAddrTypesDHCPRenewFailed & KCurAddrIPv4LinkLocal ) ) |
|
767 { |
|
768 SetTestStepResult(EPass); |
|
769 } |
|
770 else |
|
771 { |
|
772 INFO_PRINTF1(_L("Link local address management is incorrect.")); |
|
773 |
|
774 SetTestStepResult(EFail); |
|
775 } |
|
776 } |
|
777 } |
|
778 break; |
|
779 |
|
780 default: |
|
781 { |
|
782 ASSERT( false ); // should never get here |
|
783 } |
|
784 break; |
|
785 } |
|
786 } |
|
787 |
|
788 return TestStepResult(); |
|
789 |
|
790 #endif // __DHCP_HEAP_CHECK_CONTROL |
|
791 } |